mobileapplicationPassvault/node_modules/@firebase/firestore/dist/lite/internal.d.ts

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/**
* Firestore Lite
*
* @remarks Firestore Lite is a small online-only SDK that allows read
* and write access to your Firestore database. All operations connect
* directly to the backend, and `onSnapshot()` APIs are not supported.
* @packageDocumentation
*/
import { DocumentData as DocumentData_2 } from '@firebase/firestore-types';
import { EmulatorMockTokenOptions } from '@firebase/util';
import { FirebaseApp } from '@firebase/app';
import { FirebaseError } from '@firebase/util';
import { _FirebaseService } from '@firebase/app';
import { LogLevelString as LogLevel } from '@firebase/logger';
import { SetOptions as SetOptions_2 } from '@firebase/firestore-types';
/**
* Converts Firestore's internal types to the JavaScript types that we expose
* to the user.
*
* @internal
*/
declare abstract class AbstractUserDataWriter {
convertValue(value: Value, serverTimestampBehavior?: ServerTimestampBehavior): unknown;
private convertObject;
/**
* @internal
*/
convertObjectMap(fields: ApiClientObjectMap<Value> | undefined, serverTimestampBehavior?: ServerTimestampBehavior): DocumentData_2;
private convertGeoPoint;
private convertArray;
private convertServerTimestamp;
private convertTimestamp;
protected convertDocumentKey(name: string, expectedDatabaseId: DatabaseId): DocumentKey;
protected abstract convertReference(name: string): unknown;
protected abstract convertBytes(bytes: ByteString): unknown;
}
/**
* Describes a map whose keys are active target ids. We do not care about the type of the
* values.
*/
declare type ActiveTargets = SortedMap<TargetId, unknown>;
/**
* Add a new document to specified `CollectionReference` with the given data,
* assigning it a document ID automatically.
*
* The result of this write will only be reflected in document reads that occur
* after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the collection to add this document to.
* @param data - An Object containing the data for the new document.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns A `Promise` resolved with a `DocumentReference` pointing to the
* newly created document after it has been written to the backend.
*/
export declare function addDoc<AppModelType, DbModelType extends DocumentData>(reference: CollectionReference<AppModelType, DbModelType>, data: WithFieldValue<AppModelType>): Promise<DocumentReference<AppModelType, DbModelType>>;
/**
* Returns a new map where every key is prefixed with the outer key appended
* to a dot.
*/
export declare type AddPrefixToKeys<Prefix extends string, T extends Record<string, unknown>> = {
[K in keyof T & string as `${Prefix}.${K}`]+?: string extends K ? any : T[K];
};
/**
* Represents an aggregation that can be performed by Firestore.
*/
export declare class AggregateField<T> {
readonly _internalFieldPath?: FieldPath_2 | undefined;
/** A type string to uniquely identify instances of this class. */
readonly type = "AggregateField";
/** Indicates the aggregation operation of this AggregateField. */
readonly aggregateType: AggregateType;
/**
* Create a new AggregateField<T>
* @param aggregateType Specifies the type of aggregation operation to perform.
* @param _internalFieldPath Optionally specifies the field that is aggregated.
* @internal
*/
constructor(aggregateType?: AggregateType, _internalFieldPath?: FieldPath_2 | undefined);
}
/**
* Compares two 'AggregateField` instances for equality.
*
* @param left Compare this AggregateField to the `right`.
* @param right Compare this AggregateField to the `left`.
*/
export declare function aggregateFieldEqual(left: AggregateField<unknown>, right: AggregateField<unknown>): boolean;
/**
* The union of all `AggregateField` types that are supported by Firestore.
*/
export declare type AggregateFieldType = ReturnType<typeof sum> | ReturnType<typeof average> | ReturnType<typeof count>;
/**
* The results of executing an aggregation query.
*/
export declare class AggregateQuerySnapshot<AggregateSpecType extends AggregateSpec, AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> {
private readonly _userDataWriter;
private readonly _data;
/** A type string to uniquely identify instances of this class. */
readonly type = "AggregateQuerySnapshot";
/**
* The underlying query over which the aggregations recorded in this
* `AggregateQuerySnapshot` were performed.
*/
readonly query: Query<AppModelType, DbModelType>;
/** @hideconstructor */
constructor(query: Query<AppModelType, DbModelType>, _userDataWriter: AbstractUserDataWriter, _data: ApiClientObjectMap<Value>);
/**
* Returns the results of the aggregations performed over the underlying
* query.
*
* The keys of the returned object will be the same as those of the
* `AggregateSpec` object specified to the aggregation method, and the values
* will be the corresponding aggregation result.
*
* @returns The results of the aggregations performed over the underlying
* query.
*/
data(): AggregateSpecData<AggregateSpecType>;
}
/**
* Compares two `AggregateQuerySnapshot` instances for equality.
*
* Two `AggregateQuerySnapshot` instances are considered "equal" if they have
* underlying queries that compare equal, and the same data.
*
* @param left - The first `AggregateQuerySnapshot` to compare.
* @param right - The second `AggregateQuerySnapshot` to compare.
*
* @returns `true` if the objects are "equal", as defined above, or `false`
* otherwise.
*/
export declare function aggregateQuerySnapshotEqual<AggregateSpecType extends AggregateSpec, AppModelType, DbModelType extends DocumentData>(left: AggregateQuerySnapshot<AggregateSpecType, AppModelType, DbModelType>, right: AggregateQuerySnapshot<AggregateSpecType, AppModelType, DbModelType>): boolean;
/**
* Specifies a set of aggregations and their aliases.
*/
export declare interface AggregateSpec {
[field: string]: AggregateFieldType;
}
/**
* A type whose keys are taken from an `AggregateSpec`, and whose values are the
* result of the aggregation performed by the corresponding `AggregateField`
* from the input `AggregateSpec`.
*/
export declare type AggregateSpecData<T extends AggregateSpec> = {
[P in keyof T]: T[P] extends AggregateField<infer U> ? U : never;
};
/**
* Union type representing the aggregate type to be performed.
*/
export declare type AggregateType = 'count' | 'avg' | 'sum';
/**
* Creates a new {@link QueryCompositeFilterConstraint} that is a conjunction of
* the given filter constraints. A conjunction filter includes a document if it
* satisfies all of the given filters.
*
* @param queryConstraints - Optional. The list of
* {@link QueryFilterConstraint}s to perform a conjunction for. These must be
* created with calls to {@link where}, {@link or}, or {@link and}.
* @returns The newly created {@link QueryCompositeFilterConstraint}.
*/
export declare function and(...queryConstraints: QueryFilterConstraint[]): QueryCompositeFilterConstraint;
declare interface ApiClientObjectMap<T> {
[k: string]: T;
}
/**
* An `AppliableConstraint` is an abstraction of a constraint that can be applied
* to a Firestore query.
*/
declare abstract class AppliableConstraint {
/**
* Takes the provided {@link Query} and returns a copy of the {@link Query} with this
* {@link AppliableConstraint} applied.
*/
abstract _apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
}
/**
* Returns a special value that can be used with {@link (setDoc:1)} or {@link
* updateDoc:1} that tells the server to remove the given elements from any
* array value that already exists on the server. All instances of each element
* specified will be removed from the array. If the field being modified is not
* already an array it will be overwritten with an empty array.
*
* @param elements - The elements to remove from the array.
* @returns The `FieldValue` sentinel for use in a call to `setDoc()` or
* `updateDoc()`
*/
export declare function arrayRemove(...elements: unknown[]): FieldValue;
/**
* Returns a special value that can be used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link
* @firebase/firestore/lite#(updateDoc:1)} that tells the server to union the given elements with any array
* value that already exists on the server. Each specified element that doesn't
* already exist in the array will be added to the end. If the field being
* modified is not already an array it will be overwritten with an array
* containing exactly the specified elements.
*
* @param elements - The elements to union into the array.
* @returns The `FieldValue` sentinel for use in a call to `setDoc()` or
* `updateDoc()`.
*/
export declare function arrayUnion(...elements: unknown[]): FieldValue;
declare interface AsyncQueue {
readonly isShuttingDown: boolean;
/**
* Adds a new operation to the queue without waiting for it to complete (i.e.
* we ignore the Promise result).
*/
enqueueAndForget<T extends unknown>(op: () => Promise<T>): void;
/**
* Regardless if the queue has initialized shutdown, adds a new operation to the
* queue without waiting for it to complete (i.e. we ignore the Promise result).
*/
enqueueAndForgetEvenWhileRestricted<T extends unknown>(op: () => Promise<T>): void;
/**
* Initialize the shutdown of this queue. Once this method is called, the
* only possible way to request running an operation is through
* `enqueueEvenWhileRestricted()`.
*
* @param purgeExistingTasks Whether already enqueued tasked should be
* rejected (unless enqueued wih `enqueueEvenWhileRestricted()`). Defaults
* to false.
*/
enterRestrictedMode(purgeExistingTasks?: boolean): void;
/**
* Adds a new operation to the queue. Returns a promise that will be resolved
* when the promise returned by the new operation is (with its value).
*/
enqueue<T extends unknown>(op: () => Promise<T>): Promise<T>;
/**
* Enqueue a retryable operation.
*
* A retryable operation is rescheduled with backoff if it fails with a
* IndexedDbTransactionError (the error type used by SimpleDb). All
* retryable operations are executed in order and only run if all prior
* operations were retried successfully.
*/
enqueueRetryable(op: () => Promise<void>): void;
/**
* Schedules an operation to be queued on the AsyncQueue once the specified
* `delayMs` has elapsed. The returned DelayedOperation can be used to cancel
* or fast-forward the operation prior to its running.
*/
enqueueAfterDelay<T extends unknown>(timerId: TimerId, delayMs: number, op: () => Promise<T>): DelayedOperation<T>;
/**
* Verifies there's an operation currently in-progress on the AsyncQueue.
* Unfortunately we can't verify that the running code is in the promise chain
* of that operation, so this isn't a foolproof check, but it should be enough
* to catch some bugs.
*/
verifyOperationInProgress(): void;
}
/**
* @internal
*/
declare type AuthTokenFactory = () => string;
/**
* Create an AggregateField object that can be used to compute the average of
* a specified field over a range of documents in the result set of a query.
* @param field Specifies the field to average across the result set.
*/
export declare function average(field: string | FieldPath): AggregateField<number | null>;
/**
* Path represents an ordered sequence of string segments.
*/
declare abstract class BasePath<B extends BasePath<B>> {
private segments;
private offset;
private len;
constructor(segments: string[], offset?: number, length?: number);
/**
* Abstract constructor method to construct an instance of B with the given
* parameters.
*/
protected abstract construct(segments: string[], offset?: number, length?: number): B;
/**
* Returns a String representation.
*
* Implementing classes are required to provide deterministic implementations as
* the String representation is used to obtain canonical Query IDs.
*/
abstract toString(): string;
get length(): number;
isEqual(other: B): boolean;
child(nameOrPath: string | B): B;
/** The index of one past the last segment of the path. */
private limit;
popFirst(size?: number): B;
popLast(): B;
firstSegment(): string;
lastSegment(): string;
get(index: number): string;
isEmpty(): boolean;
isPrefixOf(other: this): boolean;
isImmediateParentOf(potentialChild: this): boolean;
forEach(fn: (segment: string) => void): void;
toArray(): string[];
static comparator<T extends BasePath<T>>(p1: BasePath<T>, p2: BasePath<T>): number;
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* BatchID is a locally assigned ID for a batch of mutations that have been
* applied.
*/
declare type BatchId = number;
/**
* Represents a bound of a query.
*
* The bound is specified with the given components representing a position and
* whether it's just before or just after the position (relative to whatever the
* query order is).
*
* The position represents a logical index position for a query. It's a prefix
* of values for the (potentially implicit) order by clauses of a query.
*
* Bound provides a function to determine whether a document comes before or
* after a bound. This is influenced by whether the position is just before or
* just after the provided values.
*/
declare class Bound {
readonly position: Value[];
readonly inclusive: boolean;
constructor(position: Value[], inclusive: boolean);
}
/**
* Provides interfaces to save and read Firestore bundles.
*/
declare interface BundleCache {
/**
* Gets the saved `BundleMetadata` for a given `bundleId`, returns undefined
* if no bundle metadata is found under the given id.
*/
getBundleMetadata(transaction: PersistenceTransaction, bundleId: string): PersistencePromise<BundleMetadata | undefined>;
/**
* Saves a `BundleMetadata` from a bundle into local storage, using its id as
* the persistent key.
*/
saveBundleMetadata(transaction: PersistenceTransaction, metadata: BundleMetadata_2): PersistencePromise<void>;
/**
* Gets a saved `NamedQuery` for the given query name. Returns undefined if
* no queries are found under the given name.
*/
getNamedQuery(transaction: PersistenceTransaction, queryName: string): PersistencePromise<NamedQuery | undefined>;
/**
* Saves a `NamedQuery` from a bundle, using its name as the persistent key.
*/
saveNamedQuery(transaction: PersistenceTransaction, query: NamedQuery_2): PersistencePromise<void>;
}
/** Properties of a BundledQuery. */
declare interface BundledQuery {
/** BundledQuery parent */
parent?: string | null;
/** BundledQuery structuredQuery */
structuredQuery?: StructuredQuery | null;
/** BundledQuery limitType */
limitType?: LimitType_2 | null;
}
/**
* Represents a Firestore bundle saved by the SDK in its local storage.
*/
declare interface BundleMetadata {
/**
* Id of the bundle. It is used together with `createTime` to determine if a
* bundle has been loaded by the SDK.
*/
readonly id: string;
/** Schema version of the bundle. */
readonly version: number;
/**
* Set to the snapshot version of the bundle if created by the Server SDKs.
* Otherwise set to SnapshotVersion.MIN.
*/
readonly createTime: SnapshotVersion;
}
/** Properties of a BundleMetadata. */
declare interface BundleMetadata_2 {
/** BundleMetadata id */
id?: string | null;
/** BundleMetadata createTime */
createTime?: Timestamp_2 | null;
/** BundleMetadata version */
version?: number | null;
/** BundleMetadata totalDocuments */
totalDocuments?: number | null;
/** BundleMetadata totalBytes */
totalBytes?: number | null;
}
/**
* An immutable object representing an array of bytes.
*/
export declare class Bytes {
_byteString: ByteString;
/** @hideconstructor */
constructor(byteString: ByteString);
/**
* Creates a new `Bytes` object from the given Base64 string, converting it to
* bytes.
*
* @param base64 - The Base64 string used to create the `Bytes` object.
*/
static fromBase64String(base64: string): Bytes;
/**
* Creates a new `Bytes` object from the given Uint8Array.
*
* @param array - The Uint8Array used to create the `Bytes` object.
*/
static fromUint8Array(array: Uint8Array): Bytes;
/**
* Returns the underlying bytes as a Base64-encoded string.
*
* @returns The Base64-encoded string created from the `Bytes` object.
*/
toBase64(): string;
/**
* Returns the underlying bytes in a new `Uint8Array`.
*
* @returns The Uint8Array created from the `Bytes` object.
*/
toUint8Array(): Uint8Array;
/**
* Returns a string representation of the `Bytes` object.
*
* @returns A string representation of the `Bytes` object.
*/
toString(): string;
/**
* Returns true if this `Bytes` object is equal to the provided one.
*
* @param other - The `Bytes` object to compare against.
* @returns true if this `Bytes` object is equal to the provided one.
*/
isEqual(other: Bytes): boolean;
}
/**
* @license
* Copyright 2020 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Immutable class that represents a "proto" byte string.
*
* Proto byte strings can either be Base64-encoded strings or Uint8Arrays when
* sent on the wire. This class abstracts away this differentiation by holding
* the proto byte string in a common class that must be converted into a string
* before being sent as a proto.
* @internal
*/
declare class ByteString {
private readonly binaryString;
static readonly EMPTY_BYTE_STRING: ByteString;
private constructor();
static fromBase64String(base64: string): ByteString;
static fromUint8Array(array: Uint8Array): ByteString;
[Symbol.iterator](): Iterator<number>;
toBase64(): string;
toUint8Array(): Uint8Array;
approximateByteSize(): number;
compareTo(other: ByteString): number;
isEqual(other: ByteString): boolean;
}
declare const enum ChangeType {
Added = 0,
Removed = 1,
Modified = 2,
Metadata = 3
}
/**
* Helper for calculating the nested fields for a given type T1. This is needed
* to distribute union types such as `undefined | {...}` (happens for optional
* props) or `{a: A} | {b: B}`.
*
* In this use case, `V` is used to distribute the union types of `T[K]` on
* `Record`, since `T[K]` is evaluated as an expression and not distributed.
*
* See https://www.typescriptlang.org/docs/handbook/advanced-types.html#distributive-conditional-types
*/
export declare type ChildUpdateFields<K extends string, V> = V extends Record<string, unknown> ? AddPrefixToKeys<K, UpdateData<V>> : never;
/**
* A randomly-generated key assigned to each Firestore instance at startup.
*/
declare type ClientId = string;
/**
* Gets a `CollectionReference` instance that refers to the collection at
* the specified absolute path.
*
* @param firestore - A reference to the root `Firestore` instance.
* @param path - A slash-separated path to a collection.
* @param pathSegments - Additional path segments to apply relative to the first
* argument.
* @throws If the final path has an even number of segments and does not point
* to a collection.
* @returns The `CollectionReference` instance.
*/
export declare function collection(firestore: Firestore, path: string, ...pathSegments: string[]): CollectionReference<DocumentData, DocumentData>;
/**
* Gets a `CollectionReference` instance that refers to a subcollection of
* `reference` at the the specified relative path.
*
* @param reference - A reference to a collection.
* @param path - A slash-separated path to a collection.
* @param pathSegments - Additional path segments to apply relative to the first
* argument.
* @throws If the final path has an even number of segments and does not point
* to a collection.
* @returns The `CollectionReference` instance.
*/
export declare function collection<AppModelType, DbModelType extends DocumentData>(reference: CollectionReference<AppModelType, DbModelType>, path: string, ...pathSegments: string[]): CollectionReference<DocumentData, DocumentData>;
/**
* Gets a `CollectionReference` instance that refers to a subcollection of
* `reference` at the the specified relative path.
*
* @param reference - A reference to a Firestore document.
* @param path - A slash-separated path to a collection.
* @param pathSegments - Additional path segments that will be applied relative
* to the first argument.
* @throws If the final path has an even number of segments and does not point
* to a collection.
* @returns The `CollectionReference` instance.
*/
export declare function collection<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>, path: string, ...pathSegments: string[]): CollectionReference<DocumentData, DocumentData>;
/**
* Creates and returns a new `Query` instance that includes all documents in the
* database that are contained in a collection or subcollection with the
* given `collectionId`.
*
* @param firestore - A reference to the root `Firestore` instance.
* @param collectionId - Identifies the collections to query over. Every
* collection or subcollection with this ID as the last segment of its path
* will be included. Cannot contain a slash.
* @returns The created `Query`.
*/
export declare function collectionGroup(firestore: Firestore, collectionId: string): Query<DocumentData, DocumentData>;
/**
* A `CollectionReference` object can be used for adding documents, getting
* document references, and querying for documents (using {@link (query:1)}).
*/
export declare class CollectionReference<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> extends Query<AppModelType, DbModelType> {
readonly _path: ResourcePath;
/** The type of this Firestore reference. */
readonly type = "collection";
/** @hideconstructor */
constructor(firestore: Firestore, converter: FirestoreDataConverter<AppModelType, DbModelType> | null, _path: ResourcePath);
/** The collection's identifier. */
get id(): string;
/**
* A string representing the path of the referenced collection (relative
* to the root of the database).
*/
get path(): string;
/**
* A reference to the containing `DocumentReference` if this is a
* subcollection. If this isn't a subcollection, the reference is null.
*/
get parent(): DocumentReference<DocumentData, DocumentData> | null;
/**
* Applies a custom data converter to this `CollectionReference`, allowing you
* to use your own custom model objects with Firestore. When you call {@link
* addDoc} with the returned `CollectionReference` instance, the provided
* converter will convert between Firestore data of type `NewDbModelType` and
* your custom type `NewAppModelType`.
*
* @param converter - Converts objects to and from Firestore.
* @returns A `CollectionReference` that uses the provided converter.
*/
withConverter<NewAppModelType, NewDbModelType extends DocumentData = DocumentData>(converter: FirestoreDataConverter<NewAppModelType, NewDbModelType>): CollectionReference<NewAppModelType, NewDbModelType>;
/**
* Removes the current converter.
*
* @param converter - `null` removes the current converter.
* @returns A `CollectionReference<DocumentData, DocumentData>` that does not
* use a converter.
*/
withConverter(converter: null): CollectionReference<DocumentData, DocumentData>;
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
declare type Comparator<K> = (key1: K, key2: K) => number;
declare interface ComponentConfiguration {
asyncQueue: AsyncQueue;
databaseInfo: DatabaseInfo;
authCredentials: CredentialsProvider<User>;
appCheckCredentials: CredentialsProvider<string>;
clientId: ClientId;
initialUser: User;
maxConcurrentLimboResolutions: number;
}
declare type CompositeFilterOp = 'OPERATOR_UNSPECIFIED' | 'AND' | 'OR';
declare const enum CompositeOperator {
OR = "or",
AND = "and"
}
/**
* Modify this instance to communicate with the Cloud Firestore emulator.
*
* Note: This must be called before this instance has been used to do any
* operations.
*
* @param firestore - The `Firestore` instance to configure to connect to the
* emulator.
* @param host - the emulator host (ex: localhost).
* @param port - the emulator port (ex: 9000).
* @param options.mockUserToken - the mock auth token to use for unit testing
* Security Rules.
*/
export declare function connectFirestoreEmulator(firestore: Firestore, host: string, port: number, options?: {
mockUserToken?: EmulatorMockTokenOptions | string;
}): void;
/**
* Create an AggregateField object that can be used to compute the count of
* documents in the result set of a query.
*/
export declare function count(): AggregateField<number>;
/**
* A Listener for credential change events. The listener should fetch a new
* token and may need to invalidate other state if the current user has also
* changed.
*/
declare type CredentialChangeListener<T> = (credential: T) => Promise<void>;
/**
* Provides methods for getting the uid and token for the current user and
* listening for changes.
*/
declare interface CredentialsProvider<T> {
/**
* Starts the credentials provider and specifies a listener to be notified of
* credential changes (sign-in / sign-out, token changes). It is immediately
* called once with the initial user.
*
* The change listener is invoked on the provided AsyncQueue.
*/
start(asyncQueue: AsyncQueue, changeListener: CredentialChangeListener<T>): void;
/** Requests a token for the current user. */
getToken(): Promise<Token | null>;
/**
* Marks the last retrieved token as invalid, making the next GetToken request
* force-refresh the token.
*/
invalidateToken(): void;
shutdown(): void;
}
/** Settings for private credentials */
declare type CredentialsSettings = FirstPartyCredentialsSettings | ProviderCredentialsSettings;
/**
* Represents the database ID a Firestore client is associated with.
* @internal
*/
declare class DatabaseId {
readonly projectId: string;
readonly database: string;
constructor(projectId: string, database?: string);
static empty(): DatabaseId;
get isDefaultDatabase(): boolean;
isEqual(other: {}): boolean;
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
declare class DatabaseInfo {
readonly databaseId: DatabaseId;
readonly appId: string;
readonly persistenceKey: string;
readonly host: string;
readonly ssl: boolean;
readonly forceLongPolling: boolean;
readonly autoDetectLongPolling: boolean;
readonly longPollingOptions: ExperimentalLongPollingOptions;
readonly useFetchStreams: boolean;
/**
* Constructs a DatabaseInfo using the provided host, databaseId and
* persistenceKey.
*
* @param databaseId - The database to use.
* @param appId - The Firebase App Id.
* @param persistenceKey - A unique identifier for this Firestore's local
* storage (used in conjunction with the databaseId).
* @param host - The Firestore backend host to connect to.
* @param ssl - Whether to use SSL when connecting.
* @param forceLongPolling - Whether to use the forceLongPolling option
* when using WebChannel as the network transport.
* @param autoDetectLongPolling - Whether to use the detectBufferingProxy
* option when using WebChannel as the network transport.
* @param longPollingOptions Options that configure long-polling.
* @param useFetchStreams Whether to use the Fetch API instead of
* XMLHTTPRequest
*/
constructor(databaseId: DatabaseId, appId: string, persistenceKey: string, host: string, ssl: boolean, forceLongPolling: boolean, autoDetectLongPolling: boolean, longPollingOptions: ExperimentalLongPollingOptions, useFetchStreams: boolean);
}
/**
* Datastore and its related methods are a wrapper around the external Google
* Cloud Datastore grpc API, which provides an interface that is more convenient
* for the rest of the client SDK architecture to consume.
*/
declare abstract class Datastore {
abstract terminate(): void;
abstract serializer: JsonProtoSerializer;
}
/**
* Represents an operation scheduled to be run in the future on an AsyncQueue.
*
* It is created via DelayedOperation.createAndSchedule().
*
* Supports cancellation (via cancel()) and early execution (via skipDelay()).
*
* Note: We implement `PromiseLike` instead of `Promise`, as the `Promise` type
* in newer versions of TypeScript defines `finally`, which is not available in
* IE.
*/
declare class DelayedOperation<T extends unknown> implements PromiseLike<T> {
private readonly asyncQueue;
readonly timerId: TimerId;
readonly targetTimeMs: number;
private readonly op;
private readonly removalCallback;
private timerHandle;
private readonly deferred;
private constructor();
get promise(): Promise<T>;
/**
* Creates and returns a DelayedOperation that has been scheduled to be
* executed on the provided asyncQueue after the provided delayMs.
*
* @param asyncQueue - The queue to schedule the operation on.
* @param id - A Timer ID identifying the type of operation this is.
* @param delayMs - The delay (ms) before the operation should be scheduled.
* @param op - The operation to run.
* @param removalCallback - A callback to be called synchronously once the
* operation is executed or canceled, notifying the AsyncQueue to remove it
* from its delayedOperations list.
* PORTING NOTE: This exists to prevent making removeDelayedOperation() and
* the DelayedOperation class public.
*/
static createAndSchedule<R extends unknown>(asyncQueue: AsyncQueue, timerId: TimerId, delayMs: number, op: () => Promise<R>, removalCallback: (op: DelayedOperation<R>) => void): DelayedOperation<R>;
/**
* Starts the timer. This is called immediately after construction by
* createAndSchedule().
*/
private start;
/**
* Queues the operation to run immediately (if it hasn't already been run or
* canceled).
*/
skipDelay(): void;
/**
* Cancels the operation if it hasn't already been executed or canceled. The
* promise will be rejected.
*
* As long as the operation has not yet been run, calling cancel() provides a
* guarantee that the operation will not be run.
*/
cancel(reason?: string): void;
then: <TResult1 = T, TResult2 = never>(onfulfilled?: ((value: T) => TResult1 | PromiseLike<TResult1>) | null | undefined, onrejected?: ((reason: any) => TResult2 | PromiseLike<TResult2>) | null | undefined) => Promise<TResult1 | TResult2>;
private handleDelayElapsed;
private clearTimeout;
}
/**
* Deletes the document referred to by the specified `DocumentReference`.
*
* The deletion will only be reflected in document reads that occur after the
* returned promise resolves. If the client is offline, the
* delete fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the document to delete.
* @returns A `Promise` resolved once the document has been successfully
* deleted from the backend.
*/
export declare function deleteDoc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>): Promise<void>;
/**
* Returns a sentinel for use with {@link @firebase/firestore/lite#(updateDoc:1)} or
* {@link @firebase/firestore/lite#(setDoc:1)} with `{merge: true}` to mark a field for deletion.
*/
export declare function deleteField(): FieldValue;
/**
* The direction of sorting in an order by.
*/
declare const enum Direction {
ASCENDING = "asc",
DESCENDING = "desc"
}
/**
* Gets a `DocumentReference` instance that refers to the document at the
* specified absolute path.
*
* @param firestore - A reference to the root `Firestore` instance.
* @param path - A slash-separated path to a document.
* @param pathSegments - Additional path segments that will be applied relative
* to the first argument.
* @throws If the final path has an odd number of segments and does not point to
* a document.
* @returns The `DocumentReference` instance.
*/
export declare function doc(firestore: Firestore, path: string, ...pathSegments: string[]): DocumentReference<DocumentData, DocumentData>;
/**
* Gets a `DocumentReference` instance that refers to a document within
* `reference` at the specified relative path. If no path is specified, an
* automatically-generated unique ID will be used for the returned
* `DocumentReference`.
*
* @param reference - A reference to a collection.
* @param path - A slash-separated path to a document. Has to be omitted to use
* auto-genrated IDs.
* @param pathSegments - Additional path segments that will be applied relative
* to the first argument.
* @throws If the final path has an odd number of segments and does not point to
* a document.
* @returns The `DocumentReference` instance.
*/
export declare function doc<AppModelType, DbModelType extends DocumentData>(reference: CollectionReference<AppModelType, DbModelType>, path?: string, ...pathSegments: string[]): DocumentReference<AppModelType, DbModelType>;
/**
* Gets a `DocumentReference` instance that refers to a document within
* `reference` at the specified relative path.
*
* @param reference - A reference to a Firestore document.
* @param path - A slash-separated path to a document.
* @param pathSegments - Additional path segments that will be applied relative
* to the first argument.
* @throws If the final path has an odd number of segments and does not point to
* a document.
* @returns The `DocumentReference` instance.
*/
export declare function doc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>, path: string, ...pathSegments: string[]): DocumentReference<DocumentData, DocumentData>;
/**
* Represents a document in Firestore with a key, version, data and whether the
* data has local mutations applied to it.
*/
declare interface Document_2 {
/** The key for this document */
readonly key: DocumentKey;
/**
* The version of this document if it exists or a version at which this
* document was guaranteed to not exist.
*/
readonly version: SnapshotVersion;
/**
* The timestamp at which this document was read from the remote server. Uses
* `SnapshotVersion.min()` for documents created by the user.
*/
readonly readTime: SnapshotVersion;
/**
* The timestamp at which the document was created. This value increases
* monotonically when a document is deleted then recreated. It can also be
* compared to `createTime` of other documents and the `readTime` of a query.
*/
readonly createTime: SnapshotVersion;
/** The underlying data of this document or an empty value if no data exists. */
readonly data: ObjectValue;
/** Returns whether local mutations were applied via the mutation queue. */
readonly hasLocalMutations: boolean;
/** Returns whether mutations were applied based on a write acknowledgment. */
readonly hasCommittedMutations: boolean;
/**
* Whether this document had a local mutation applied that has not yet been
* acknowledged by Watch.
*/
readonly hasPendingWrites: boolean;
/**
* Returns whether this document is valid (i.e. it is an entry in the
* RemoteDocumentCache, was created by a mutation or read from the backend).
*/
isValidDocument(): boolean;
/**
* Returns whether the document exists and its data is known at the current
* version.
*/
isFoundDocument(): boolean;
/**
* Returns whether the document is known to not exist at the current version.
*/
isNoDocument(): boolean;
/**
* Returns whether the document exists and its data is unknown at the current
* version.
*/
isUnknownDocument(): boolean;
isEqual(other: Document_2 | null | undefined): boolean;
/** Creates a mutable copy of this document. */
mutableCopy(): MutableDocument;
toString(): string;
}
declare type DocumentComparator = (doc1: Document_2, doc2: Document_2) => number;
/**
* Document data (for use with {@link @firebase/firestore/lite#(setDoc:1)}) consists of fields mapped to
* values.
*/
export declare interface DocumentData {
/** A mapping between a field and its value. */
[field: string]: any;
}
/**
* Returns a special sentinel `FieldPath` to refer to the ID of a document.
* It can be used in queries to sort or filter by the document ID.
*/
export declare function documentId(): FieldPath;
/**
* @internal
*/
declare class DocumentKey {
readonly path: ResourcePath;
constructor(path: ResourcePath);
static fromPath(path: string): DocumentKey;
static fromName(name: string): DocumentKey;
static empty(): DocumentKey;
get collectionGroup(): string;
/** Returns true if the document is in the specified collectionId. */
hasCollectionId(collectionId: string): boolean;
/** Returns the collection group (i.e. the name of the parent collection) for this key. */
getCollectionGroup(): string;
/** Returns the fully qualified path to the parent collection. */
getCollectionPath(): ResourcePath;
isEqual(other: DocumentKey | null): boolean;
toString(): string;
static comparator(k1: DocumentKey, k2: DocumentKey): number;
static isDocumentKey(path: ResourcePath): boolean;
/**
* Creates and returns a new document key with the given segments.
*
* @param segments - The segments of the path to the document
* @returns A new instance of DocumentKey
*/
static fromSegments(segments: string[]): DocumentKey;
}
declare type DocumentKeyMap<T> = ObjectMap<DocumentKey, T>;
declare type DocumentKeySet = SortedSet<DocumentKey>;
declare type DocumentMap = SortedMap<DocumentKey, Document_2>;
/**
* Provides methods to read and write document overlays.
*
* An overlay is a saved mutation, that gives a local view of a document when
* applied to the remote version of the document.
*
* Each overlay stores the largest batch ID that is included in the overlay,
* which allows us to remove the overlay once all batches leading up to it have
* been acknowledged.
*/
declare interface DocumentOverlayCache {
/**
* Gets the saved overlay mutation for the given document key.
* Returns null if there is no overlay for that key.
*/
getOverlay(transaction: PersistenceTransaction, key: DocumentKey): PersistencePromise<Overlay | null>;
/**
* Gets the saved overlay mutation for the given document keys. Skips keys for
* which there are no overlays.
*/
getOverlays(transaction: PersistenceTransaction, keys: DocumentKey[]): PersistencePromise<OverlayMap>;
/**
* Saves the given document mutation map to persistence as overlays.
* All overlays will have their largest batch id set to `largestBatchId`.
*/
saveOverlays(transaction: PersistenceTransaction, largestBatchId: number, overlays: MutationMap): PersistencePromise<void>;
/** Removes overlays for the given document keys and batch ID. */
removeOverlaysForBatchId(transaction: PersistenceTransaction, documentKeys: DocumentKeySet, batchId: number): PersistencePromise<void>;
/**
* Returns all saved overlays for the given collection.
*
* @param transaction - The persistence transaction to use for this operation.
* @param collection - The collection path to get the overlays for.
* @param sinceBatchId - The minimum batch ID to filter by (exclusive).
* Only overlays that contain a change past `sinceBatchId` are returned.
* @returns Mapping of each document key in the collection to its overlay.
*/
getOverlaysForCollection(transaction: PersistenceTransaction, collection: ResourcePath, sinceBatchId: number): PersistencePromise<OverlayMap>;
/**
* Returns `count` overlays with a batch ID higher than `sinceBatchId` for the
* provided collection group, processed by ascending batch ID. The method
* always returns all overlays for a batch even if the last batch contains
* more documents than the remaining limit.
*
* @param transaction - The persistence transaction used for this operation.
* @param collectionGroup - The collection group to get the overlays for.
* @param sinceBatchId - The minimum batch ID to filter by (exclusive).
* Only overlays that contain a change past `sinceBatchId` are returned.
* @param count - The number of overlays to return. Can be exceeded if the last
* batch contains more entries.
* @return Mapping of each document key in the collection group to its overlay.
*/
getOverlaysForCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string, sinceBatchId: number, count: number): PersistencePromise<OverlayMap>;
}
/**
* A `DocumentReference` refers to a document location in a Firestore database
* and can be used to write, read, or listen to the location. The document at
* the referenced location may or may not exist.
*/
export declare class DocumentReference<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> {
/**
* If provided, the `FirestoreDataConverter` associated with this instance.
*/
readonly converter: FirestoreDataConverter<AppModelType, DbModelType> | null;
readonly _key: DocumentKey;
/** The type of this Firestore reference. */
readonly type = "document";
/**
* The {@link Firestore} instance the document is in.
* This is useful for performing transactions, for example.
*/
readonly firestore: Firestore;
/** @hideconstructor */
constructor(firestore: Firestore,
/**
* If provided, the `FirestoreDataConverter` associated with this instance.
*/
converter: FirestoreDataConverter<AppModelType, DbModelType> | null, _key: DocumentKey);
get _path(): ResourcePath;
/**
* The document's identifier within its collection.
*/
get id(): string;
/**
* A string representing the path of the referenced document (relative
* to the root of the database).
*/
get path(): string;
/**
* The collection this `DocumentReference` belongs to.
*/
get parent(): CollectionReference<AppModelType, DbModelType>;
/**
* Applies a custom data converter to this `DocumentReference`, allowing you
* to use your own custom model objects with Firestore. When you call {@link
* @firebase/firestore/lite#(setDoc:1)}, {@link @firebase/firestore/lite#getDoc}, etc. with the returned `DocumentReference`
* instance, the provided converter will convert between Firestore data of
* type `NewDbModelType` and your custom type `NewAppModelType`.
*
* @param converter - Converts objects to and from Firestore.
* @returns A `DocumentReference` that uses the provided converter.
*/
withConverter<NewAppModelType, NewDbModelType extends DocumentData = DocumentData>(converter: FirestoreDataConverter<NewAppModelType, NewDbModelType>): DocumentReference<NewAppModelType, NewDbModelType>;
/**
* Removes the current converter.
*
* @param converter - `null` removes the current converter.
* @returns A `DocumentReference<DocumentData, DocumentData>` that does not
* use a converter.
*/
withConverter(converter: null): DocumentReference<DocumentData, DocumentData>;
}
/**
* DocumentSet is an immutable (copy-on-write) collection that holds documents
* in order specified by the provided comparator. We always add a document key
* comparator on top of what is provided to guarantee document equality based on
* the key.
*/
declare class DocumentSet {
/**
* Returns an empty copy of the existing DocumentSet, using the same
* comparator.
*/
static emptySet(oldSet: DocumentSet): DocumentSet;
private comparator;
private keyedMap;
private sortedSet;
/** The default ordering is by key if the comparator is omitted */
constructor(comp?: DocumentComparator);
has(key: DocumentKey): boolean;
get(key: DocumentKey): Document_2 | null;
first(): Document_2 | null;
last(): Document_2 | null;
isEmpty(): boolean;
/**
* Returns the index of the provided key in the document set, or -1 if the
* document key is not present in the set;
*/
indexOf(key: DocumentKey): number;
get size(): number;
/** Iterates documents in order defined by "comparator" */
forEach(cb: (doc: Document_2) => void): void;
/** Inserts or updates a document with the same key */
add(doc: Document_2): DocumentSet;
/** Deletes a document with a given key */
delete(key: DocumentKey): DocumentSet;
isEqual(other: DocumentSet | null | undefined): boolean;
toString(): string;
private copy;
}
/**
* A `DocumentSnapshot` contains data read from a document in your Firestore
* database. The data can be extracted with `.data()` or `.get(<field>)` to
* get a specific field.
*
* For a `DocumentSnapshot` that points to a non-existing document, any data
* access will return 'undefined'. You can use the `exists()` method to
* explicitly verify a document's existence.
*/
export declare class DocumentSnapshot<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> {
_firestore: Firestore;
_userDataWriter: AbstractUserDataWriter;
_key: DocumentKey;
_document: Document_2 | null;
_converter: UntypedFirestoreDataConverter<AppModelType, DbModelType> | null;
/** @hideconstructor protected */
constructor(_firestore: Firestore, _userDataWriter: AbstractUserDataWriter, _key: DocumentKey, _document: Document_2 | null, _converter: UntypedFirestoreDataConverter<AppModelType, DbModelType> | null);
/** Property of the `DocumentSnapshot` that provides the document's ID. */
get id(): string;
/**
* The `DocumentReference` for the document included in the `DocumentSnapshot`.
*/
get ref(): DocumentReference<AppModelType, DbModelType>;
/**
* Signals whether or not the document at the snapshot's location exists.
*
* @returns true if the document exists.
*/
exists(): this is QueryDocumentSnapshot<AppModelType, DbModelType>;
/**
* Retrieves all fields in the document as an `Object`. Returns `undefined` if
* the document doesn't exist.
*
* @returns An `Object` containing all fields in the document or `undefined`
* if the document doesn't exist.
*/
data(): AppModelType | undefined;
/**
* Retrieves the field specified by `fieldPath`. Returns `undefined` if the
* document or field doesn't exist.
*
* @param fieldPath - The path (for example 'foo' or 'foo.bar') to a specific
* field.
* @returns The data at the specified field location or undefined if no such
* field exists in the document.
*/
get(fieldPath: string | FieldPath): any;
}
declare type DocumentVersionMap = SortedMap<DocumentKey, SnapshotVersion>;
declare interface DocumentViewChange {
type: ChangeType;
doc: Document_2;
}
export { EmulatorMockTokenOptions }
/**
* Creates a {@link QueryEndAtConstraint} that modifies the result set to end at
* the provided document (inclusive). The end position is relative to the order
* of the query. The document must contain all of the fields provided in the
* orderBy of the query.
*
* @param snapshot - The snapshot of the document to end at.
* @returns A {@link QueryEndAtConstraint} to pass to `query()`
*/
export declare function endAt<AppModelType, DbModelType extends DocumentData>(snapshot: DocumentSnapshot<AppModelType, DbModelType>): QueryEndAtConstraint;
/**
* Creates a {@link QueryEndAtConstraint} that modifies the result set to end at
* the provided fields relative to the order of the query. The order of the field
* values must match the order of the order by clauses of the query.
*
* @param fieldValues - The field values to end this query at, in order
* of the query's order by.
* @returns A {@link QueryEndAtConstraint} to pass to `query()`
*/
export declare function endAt(...fieldValues: unknown[]): QueryEndAtConstraint;
/**
* Creates a {@link QueryEndAtConstraint} that modifies the result set to end
* before the provided document (exclusive). The end position is relative to the
* order of the query. The document must contain all of the fields provided in
* the orderBy of the query.
*
* @param snapshot - The snapshot of the document to end before.
* @returns A {@link QueryEndAtConstraint} to pass to `query()`
*/
export declare function endBefore<AppModelType, DbModelType extends DocumentData>(snapshot: DocumentSnapshot<AppModelType, DbModelType>): QueryEndAtConstraint;
/**
* Creates a {@link QueryEndAtConstraint} that modifies the result set to end
* before the provided fields relative to the order of the query. The order of
* the field values must match the order of the order by clauses of the query.
*
* @param fieldValues - The field values to end this query before, in order
* of the query's order by.
* @returns A {@link QueryEndAtConstraint} to pass to `query()`
*/
export declare function endBefore(...fieldValues: unknown[]): QueryEndAtConstraint;
declare interface Entry<K, V> {
key: K;
value: V;
}
/**
* EventManager is responsible for mapping queries to query event emitters.
* It handles "fan-out". -- Identical queries will re-use the same watch on the
* backend.
*
* PORTING NOTE: On Web, EventManager `onListen` and `onUnlisten` need to be
* assigned to SyncEngine's `listen()` and `unlisten()` API before usage. This
* allows users to tree-shake the Watch logic.
*/
declare interface EventManager {
onListen?: (query: Query_2) => Promise<ViewSnapshot>;
onUnlisten?: (query: Query_2) => Promise<void>;
}
/**
* @license
* Copyright 2023 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Options that configure the SDKs underlying network transport (WebChannel)
* when long-polling is used.
*
* Note: This interface is "experimental" and is subject to change.
*
* See `FirestoreSettings.experimentalAutoDetectLongPolling`,
* `FirestoreSettings.experimentalForceLongPolling`, and
* `FirestoreSettings.experimentalLongPollingOptions`.
*/
declare interface ExperimentalLongPollingOptions {
/**
* The desired maximum timeout interval, in seconds, to complete a
* long-polling GET response. Valid values are between 5 and 30, inclusive.
* Floating point values are allowed and will be rounded to the nearest
* millisecond.
*
* By default, when long-polling is used the "hanging GET" request sent by
* the client times out after 30 seconds. To request a different timeout
* from the server, set this setting with the desired timeout.
*
* Changing the default timeout may be useful, for example, if the buffering
* proxy that necessitated enabling long-polling in the first place has a
* shorter timeout for hanging GET requests, in which case setting the
* long-polling timeout to a shorter value, such as 25 seconds, may fix
* prematurely-closed hanging GET requests.
* For example, see https://github.com/firebase/firebase-js-sdk/issues/6987.
*/
timeoutSeconds?: number;
}
declare class FieldFilter extends Filter {
readonly field: FieldPath_2;
readonly op: Operator;
readonly value: Value;
protected constructor(field: FieldPath_2, op: Operator, value: Value);
/**
* Creates a filter based on the provided arguments.
*/
static create(field: FieldPath_2, op: Operator, value: Value): FieldFilter;
private static createKeyFieldInFilter;
matches(doc: Document_2): boolean;
protected matchesComparison(comparison: number): boolean;
isInequality(): boolean;
getFlattenedFilters(): readonly FieldFilter[];
getFilters(): Filter[];
}
declare type FieldFilterOp = 'OPERATOR_UNSPECIFIED' | 'LESS_THAN' | 'LESS_THAN_OR_EQUAL' | 'GREATER_THAN' | 'GREATER_THAN_OR_EQUAL' | 'EQUAL' | 'NOT_EQUAL' | 'ARRAY_CONTAINS' | 'IN' | 'ARRAY_CONTAINS_ANY' | 'NOT_IN';
/**
* An index definition for field indexes in Firestore.
*
* Every index is associated with a collection. The definition contains a list
* of fields and their index kind (which can be `ASCENDING`, `DESCENDING` or
* `CONTAINS` for ArrayContains/ArrayContainsAny queries).
*
* Unlike the backend, the SDK does not differentiate between collection or
* collection group-scoped indices. Every index can be used for both single
* collection and collection group queries.
*/
declare class FieldIndex {
/**
* The index ID. Returns -1 if the index ID is not available (e.g. the index
* has not yet been persisted).
*/
readonly indexId: number;
/** The collection ID this index applies to. */
readonly collectionGroup: string;
/** The field segments for this index. */
readonly fields: IndexSegment[];
/** Shows how up-to-date the index is for the current user. */
readonly indexState: IndexState;
/** An ID for an index that has not yet been added to persistence. */
static UNKNOWN_ID: number;
constructor(
/**
* The index ID. Returns -1 if the index ID is not available (e.g. the index
* has not yet been persisted).
*/
indexId: number,
/** The collection ID this index applies to. */
collectionGroup: string,
/** The field segments for this index. */
fields: IndexSegment[],
/** Shows how up-to-date the index is for the current user. */
indexState: IndexState);
}
/**
* Provides a set of fields that can be used to partially patch a document.
* FieldMask is used in conjunction with ObjectValue.
* Examples:
* foo - Overwrites foo entirely with the provided value. If foo is not
* present in the companion ObjectValue, the field is deleted.
* foo.bar - Overwrites only the field bar of the object foo.
* If foo is not an object, foo is replaced with an object
* containing foo
*/
declare class FieldMask {
readonly fields: FieldPath_2[];
constructor(fields: FieldPath_2[]);
static empty(): FieldMask;
/**
* Returns a new FieldMask object that is the result of adding all the given
* fields paths to this field mask.
*/
unionWith(extraFields: FieldPath_2[]): FieldMask;
/**
* Verifies that `fieldPath` is included by at least one field in this field
* mask.
*
* This is an O(n) operation, where `n` is the size of the field mask.
*/
covers(fieldPath: FieldPath_2): boolean;
isEqual(other: FieldMask): boolean;
}
/**
* A `FieldPath` refers to a field in a document. The path may consist of a
* single field name (referring to a top-level field in the document), or a
* list of field names (referring to a nested field in the document).
*
* Create a `FieldPath` by providing field names. If more than one field
* name is provided, the path will point to a nested field in a document.
*/
export declare class FieldPath {
/** Internal representation of a Firestore field path. */
readonly _internalPath: FieldPath_2;
/**
* Creates a `FieldPath` from the provided field names. If more than one field
* name is provided, the path will point to a nested field in a document.
*
* @param fieldNames - A list of field names.
*/
constructor(...fieldNames: string[]);
/**
* Returns true if this `FieldPath` is equal to the provided one.
*
* @param other - The `FieldPath` to compare against.
* @returns true if this `FieldPath` is equal to the provided one.
*/
isEqual(other: FieldPath): boolean;
}
/**
* A dot-separated path for navigating sub-objects within a document.
* @internal
*/
declare class FieldPath_2 extends BasePath<FieldPath_2> {
protected construct(segments: string[], offset?: number, length?: number): FieldPath_2;
/**
* Returns true if the string could be used as a segment in a field path
* without escaping.
*/
private static isValidIdentifier;
canonicalString(): string;
toString(): string;
/**
* Returns true if this field references the key of a document.
*/
isKeyField(): boolean;
/**
* The field designating the key of a document.
*/
static keyField(): FieldPath_2;
/**
* Parses a field string from the given server-formatted string.
*
* - Splitting the empty string is not allowed (for now at least).
* - Empty segments within the string (e.g. if there are two consecutive
* separators) are not allowed.
*
* TODO(b/37244157): we should make this more strict. Right now, it allows
* non-identifier path components, even if they aren't escaped.
*/
static fromServerFormat(path: string): FieldPath_2;
static emptyPath(): FieldPath_2;
}
/** A field path and the TransformOperation to perform upon it. */
declare class FieldTransform {
readonly field: FieldPath_2;
readonly transform: TransformOperation;
constructor(field: FieldPath_2, transform: TransformOperation);
}
declare type FieldTransformSetToServerValue = 'SERVER_VALUE_UNSPECIFIED' | 'REQUEST_TIME';
/**
* Sentinel values that can be used when writing document fields with `set()`
* or `update()`.
*/
export declare abstract class FieldValue {
_methodName: string;
/**
* @param _methodName - The public API endpoint that returns this class.
* @hideconstructor
*/
constructor(_methodName: string);
/** Compares `FieldValue`s for equality. */
abstract isEqual(other: FieldValue): boolean;
abstract _toFieldTransform(context: ParseContext): FieldTransform | null;
}
declare abstract class Filter {
abstract matches(doc: Document_2): boolean;
abstract getFlattenedFilters(): readonly FieldFilter[];
abstract getFilters(): Filter[];
}
/**
* The Cloud Firestore service interface.
*
* Do not call this constructor directly. Instead, use {@link (getFirestore:1)}.
*/
export declare class Firestore implements FirestoreService {
_authCredentials: CredentialsProvider<User>;
_appCheckCredentials: CredentialsProvider<string>;
readonly _databaseId: DatabaseId;
readonly _app?: FirebaseApp | undefined;
/**
* Whether it's a Firestore or Firestore Lite instance.
*/
type: 'firestore-lite' | 'firestore';
readonly _persistenceKey: string;
private _settings;
private _settingsFrozen;
private _terminateTask?;
/** @hideconstructor */
constructor(_authCredentials: CredentialsProvider<User>, _appCheckCredentials: CredentialsProvider<string>, _databaseId: DatabaseId, _app?: FirebaseApp | undefined);
/**
* The {@link @firebase/app#FirebaseApp} associated with this `Firestore` service
* instance.
*/
get app(): FirebaseApp;
get _initialized(): boolean;
get _terminated(): boolean;
_setSettings(settings: PrivateSettings): void;
_getSettings(): FirestoreSettingsImpl;
_freezeSettings(): FirestoreSettingsImpl;
_delete(): Promise<void>;
/** Returns a JSON-serializable representation of this `Firestore` instance. */
toJSON(): object;
/**
* Terminates all components used by this client. Subclasses can override
* this method to clean up their own dependencies, but must also call this
* method.
*
* Only ever called once.
*/
protected _terminate(): Promise<void>;
}
/**
* Converter used by `withConverter()` to transform user objects of type
* `AppModelType` into Firestore data of type `DbModelType`.
*
* Using the converter allows you to specify generic type arguments when
* storing and retrieving objects from Firestore.
*
* In this context, an "AppModel" is a class that is used in an application to
* package together related information and functionality. Such a class could,
* for example, have properties with complex, nested data types, properties used
* for memoization, properties of types not supported by Firestore (such as
* `symbol` and `bigint`), and helper functions that perform compound
* operations. Such classes are not suitable and/or possible to store into a
* Firestore database. Instead, instances of such classes need to be converted
* to "plain old JavaScript objects" (POJOs) with exclusively primitive
* properties, potentially nested inside other POJOs or arrays of POJOs. In this
* context, this type is referred to as the "DbModel" and would be an object
* suitable for persisting into Firestore. For convenience, applications can
* implement `FirestoreDataConverter` and register the converter with Firestore
* objects, such as `DocumentReference` or `Query`, to automatically convert
* `AppModel` to `DbModel` when storing into Firestore, and convert `DbModel`
* to `AppModel` when retrieving from Firestore.
*
* @example
*
* Simple Example
*
* ```typescript
* const numberConverter = {
* toFirestore(value: WithFieldValue<number>) {
* return { value };
* },
* fromFirestore(snapshot: QueryDocumentSnapshot, options: SnapshotOptions) {
* return snapshot.data(options).value as number;
* }
* };
*
* async function simpleDemo(db: Firestore): Promise<void> {
* const documentRef = doc(db, 'values/value123').withConverter(numberConverter);
*
* // converters are used with `setDoc`, `addDoc`, and `getDoc`
* await setDoc(documentRef, 42);
* const snapshot1 = await getDoc(documentRef);
* assertEqual(snapshot1.data(), 42);
*
* // converters are not used when writing data with `updateDoc`
* await updateDoc(documentRef, { value: 999 });
* const snapshot2 = await getDoc(documentRef);
* assertEqual(snapshot2.data(), 999);
* }
* ```
*
* Advanced Example
*
* ```typescript
* // The Post class is a model that is used by our application.
* // This class may have properties and methods that are specific
* // to our application execution, which do not need to be persisted
* // to Firestore.
* class Post {
* constructor(
* readonly title: string,
* readonly author: string,
* readonly lastUpdatedMillis: number
* ) {}
* toString(): string {
* return `${this.title} by ${this.author}`;
* }
* }
*
* // The PostDbModel represents how we want our posts to be stored
* // in Firestore. This DbModel has different properties (`ttl`,
* // `aut`, and `lut`) from the Post class we use in our application.
* interface PostDbModel {
* ttl: string;
* aut: { firstName: string; lastName: string };
* lut: Timestamp;
* }
*
* // The `PostConverter` implements `FirestoreDataConverter` and specifies
* // how the Firestore SDK can convert `Post` objects to `PostDbModel`
* // objects and vice versa.
* class PostConverter implements FirestoreDataConverter<Post, PostDbModel> {
* toFirestore(post: WithFieldValue<Post>): WithFieldValue<PostDbModel> {
* return {
* ttl: post.title,
* aut: this._autFromAuthor(post.author),
* lut: this._lutFromLastUpdatedMillis(post.lastUpdatedMillis)
* };
* }
*
* fromFirestore(snapshot: QueryDocumentSnapshot, options: SnapshotOptions): Post {
* const data = snapshot.data(options) as PostDbModel;
* const author = `${data.aut.firstName} ${data.aut.lastName}`;
* return new Post(data.ttl, author, data.lut.toMillis());
* }
*
* _autFromAuthor(
* author: string | FieldValue
* ): { firstName: string; lastName: string } | FieldValue {
* if (typeof author !== 'string') {
* // `author` is a FieldValue, so just return it.
* return author;
* }
* const [firstName, lastName] = author.split(' ');
* return {firstName, lastName};
* }
*
* _lutFromLastUpdatedMillis(
* lastUpdatedMillis: number | FieldValue
* ): Timestamp | FieldValue {
* if (typeof lastUpdatedMillis !== 'number') {
* // `lastUpdatedMillis` must be a FieldValue, so just return it.
* return lastUpdatedMillis;
* }
* return Timestamp.fromMillis(lastUpdatedMillis);
* }
* }
*
* async function advancedDemo(db: Firestore): Promise<void> {
* // Create a `DocumentReference` with a `FirestoreDataConverter`.
* const documentRef = doc(db, 'posts/post123').withConverter(new PostConverter());
*
* // The `data` argument specified to `setDoc()` is type checked by the
* // TypeScript compiler to be compatible with `Post`. Since the `data`
* // argument is typed as `WithFieldValue<Post>` rather than just `Post`,
* // this allows properties of the `data` argument to also be special
* // Firestore values that perform server-side mutations, such as
* // `arrayRemove()`, `deleteField()`, and `serverTimestamp()`.
* await setDoc(documentRef, {
* title: 'My Life',
* author: 'Foo Bar',
* lastUpdatedMillis: serverTimestamp()
* });
*
* // The TypeScript compiler will fail to compile if the `data` argument to
* // `setDoc()` is _not_ compatible with `WithFieldValue<Post>`. This
* // type checking prevents the caller from specifying objects with incorrect
* // properties or property values.
* // @ts-expect-error "Argument of type { ttl: string; } is not assignable
* // to parameter of type WithFieldValue<Post>"
* await setDoc(documentRef, { ttl: 'The Title' });
*
* // When retrieving a document with `getDoc()` the `DocumentSnapshot`
* // object's `data()` method returns a `Post`, rather than a generic object,
* // which would have been returned if the `DocumentReference` did _not_ have a
* // `FirestoreDataConverter` attached to it.
* const snapshot1: DocumentSnapshot<Post> = await getDoc(documentRef);
* const post1: Post = snapshot1.data()!;
* if (post1) {
* assertEqual(post1.title, 'My Life');
* assertEqual(post1.author, 'Foo Bar');
* }
*
* // The `data` argument specified to `updateDoc()` is type checked by the
* // TypeScript compiler to be compatible with `PostDbModel`. Note that
* // unlike `setDoc()`, whose `data` argument must be compatible with `Post`,
* // the `data` argument to `updateDoc()` must be compatible with
* // `PostDbModel`. Similar to `setDoc()`, since the `data` argument is typed
* // as `WithFieldValue<PostDbModel>` rather than just `PostDbModel`, this
* // allows properties of the `data` argument to also be those special
* // Firestore values, like `arrayRemove()`, `deleteField()`, and
* // `serverTimestamp()`.
* await updateDoc(documentRef, {
* 'aut.firstName': 'NewFirstName',
* lut: serverTimestamp()
* });
*
* // The TypeScript compiler will fail to compile if the `data` argument to
* // `updateDoc()` is _not_ compatible with `WithFieldValue<PostDbModel>`.
* // This type checking prevents the caller from specifying objects with
* // incorrect properties or property values.
* // @ts-expect-error "Argument of type { title: string; } is not assignable
* // to parameter of type WithFieldValue<PostDbModel>"
* await updateDoc(documentRef, { title: 'New Title' });
* const snapshot2: DocumentSnapshot<Post> = await getDoc(documentRef);
* const post2: Post = snapshot2.data()!;
* if (post2) {
* assertEqual(post2.title, 'My Life');
* assertEqual(post2.author, 'NewFirstName Bar');
* }
* }
* ```
*/
export declare interface FirestoreDataConverter<AppModelType, DbModelType extends DocumentData = DocumentData> {
/**
* Called by the Firestore SDK to convert a custom model object of type
* `AppModelType` into a plain Javascript object (suitable for writing
* directly to the Firestore database) of type `DbModelType`. Used with
* {@link @firebase/firestore/lite#(setDoc:1)},
* {@link @firebase/firestore/lite#(WriteBatch.set:1)} and
* {@link @firebase/firestore/lite#(Transaction.set:1)}.
*
* The `WithFieldValue<T>` type extends `T` to also allow FieldValues such as
* {@link (deleteField:1)} to be used as property values.
*/
toFirestore(modelObject: WithFieldValue<AppModelType>): WithFieldValue<DbModelType>;
/**
* Called by the Firestore SDK to convert a custom model object of type
* `AppModelType` into a plain Javascript object (suitable for writing
* directly to the Firestore database) of type `DbModelType`. Used with
* {@link @firebase/firestore/lite#(setDoc:1)},
* {@link @firebase/firestore/lite#(WriteBatch.set:1)} and
* {@link @firebase/firestore/lite#(Transaction.set:1)} with `merge:true`
* or `mergeFields`.
*
* The `PartialWithFieldValue<T>` type extends `Partial<T>` to allow
* FieldValues such as {@link (arrayUnion:1)} to be used as property values.
* It also supports nested `Partial` by allowing nested fields to be
* omitted.
*/
toFirestore(modelObject: PartialWithFieldValue<AppModelType>, options: SetOptions): PartialWithFieldValue<DbModelType>;
/**
* Called by the Firestore SDK to convert Firestore data into an object of
* type `AppModelType`. You can access your data by calling:
* `snapshot.data()`.
*
*
* Generally, the data returned from `snapshot.data()` can be cast to
* `DbModelType`; however, this is not guaranteed because Firestore does not
* enforce a schema on the database. For example, writes from a previous
* version of the application or writes from another client that did not use a
* type converter could have written data with different properties and/or
* property types. The implementation will need to choose whether to
* gracefully recover from non-conforming data or throw an error.
*
* @param snapshot - A `QueryDocumentSnapshot` containing your data and
* metadata.
*/
fromFirestore(snapshot: QueryDocumentSnapshot<DocumentData, DocumentData>): AppModelType;
}
/** An error returned by a Firestore operation. */
export declare class FirestoreError extends FirebaseError {
/**
* The backend error code associated with this error.
*/
readonly code: FirestoreErrorCode;
/**
* A custom error description.
*/
readonly message: string;
/** The stack of the error. */
readonly stack?: string;
/** @hideconstructor */
constructor(
/**
* The backend error code associated with this error.
*/
code: FirestoreErrorCode,
/**
* A custom error description.
*/
message: string);
}
/**
* The set of Firestore status codes. The codes are the same at the ones
* exposed by gRPC here:
* https://github.com/grpc/grpc/blob/master/doc/statuscodes.md
*
* Possible values:
* - 'cancelled': The operation was cancelled (typically by the caller).
* - 'unknown': Unknown error or an error from a different error domain.
* - 'invalid-argument': Client specified an invalid argument. Note that this
* differs from 'failed-precondition'. 'invalid-argument' indicates
* arguments that are problematic regardless of the state of the system
* (e.g. an invalid field name).
* - 'deadline-exceeded': Deadline expired before operation could complete.
* For operations that change the state of the system, this error may be
* returned even if the operation has completed successfully. For example,
* a successful response from a server could have been delayed long enough
* for the deadline to expire.
* - 'not-found': Some requested document was not found.
* - 'already-exists': Some document that we attempted to create already
* exists.
* - 'permission-denied': The caller does not have permission to execute the
* specified operation.
* - 'resource-exhausted': Some resource has been exhausted, perhaps a
* per-user quota, or perhaps the entire file system is out of space.
* - 'failed-precondition': Operation was rejected because the system is not
* in a state required for the operation's execution.
* - 'aborted': The operation was aborted, typically due to a concurrency
* issue like transaction aborts, etc.
* - 'out-of-range': Operation was attempted past the valid range.
* - 'unimplemented': Operation is not implemented or not supported/enabled.
* - 'internal': Internal errors. Means some invariants expected by
* underlying system has been broken. If you see one of these errors,
* something is very broken.
* - 'unavailable': The service is currently unavailable. This is most likely
* a transient condition and may be corrected by retrying with a backoff.
* - 'data-loss': Unrecoverable data loss or corruption.
* - 'unauthenticated': The request does not have valid authentication
* credentials for the operation.
*/
export declare type FirestoreErrorCode = 'cancelled' | 'unknown' | 'invalid-argument' | 'deadline-exceeded' | 'not-found' | 'already-exists' | 'permission-denied' | 'resource-exhausted' | 'failed-precondition' | 'aborted' | 'out-of-range' | 'unimplemented' | 'internal' | 'unavailable' | 'data-loss' | 'unauthenticated';
/**
* Union type from all supported SDK cache layer.
*/
declare type FirestoreLocalCache = MemoryLocalCache | PersistentLocalCache;
/**
* An interface implemented by FirebaseFirestore that provides compatibility
* with the usage in this file.
*
* This interface mainly exists to remove a cyclic dependency.
*/
declare interface FirestoreService extends _FirebaseService {
_authCredentials: CredentialsProvider<User>;
_appCheckCredentials: CredentialsProvider<string>;
_persistenceKey: string;
_databaseId: DatabaseId;
_terminated: boolean;
_freezeSettings(): FirestoreSettingsImpl;
}
/**
* A concrete type describing all the values that can be applied via a
* user-supplied `FirestoreSettings` object. This is a separate type so that
* defaults can be supplied and the value can be checked for equality.
*/
declare class FirestoreSettingsImpl {
/** The hostname to connect to. */
readonly host: string;
/** Whether to use SSL when connecting. */
readonly ssl: boolean;
readonly cacheSizeBytes: number;
readonly experimentalForceLongPolling: boolean;
readonly experimentalAutoDetectLongPolling: boolean;
readonly experimentalLongPollingOptions: ExperimentalLongPollingOptions;
readonly ignoreUndefinedProperties: boolean;
readonly useFetchStreams: boolean;
readonly localCache?: FirestoreLocalCache;
credentials?: any;
constructor(settings: PrivateSettings);
isEqual(other: FirestoreSettingsImpl): boolean;
}
declare namespace firestoreV1ApiClientInterfaces {
interface ArrayValue {
values?: Value[];
}
interface BatchGetDocumentsRequest {
database?: string;
documents?: string[];
mask?: DocumentMask;
transaction?: string;
newTransaction?: TransactionOptions;
readTime?: string;
}
interface BatchGetDocumentsResponse {
found?: Document;
missing?: string;
transaction?: string;
readTime?: string;
}
interface BeginTransactionRequest {
options?: TransactionOptions;
}
interface BeginTransactionResponse {
transaction?: string;
}
interface CollectionSelector {
collectionId?: string;
allDescendants?: boolean;
}
interface CommitRequest {
database?: string;
writes?: Write[];
transaction?: string;
}
interface CommitResponse {
writeResults?: WriteResult[];
commitTime?: string;
}
interface CompositeFilter {
op?: CompositeFilterOp;
filters?: Filter[];
}
interface Cursor {
values?: Value[];
before?: boolean;
}
interface Document {
name?: string;
fields?: ApiClientObjectMap<Value>;
createTime?: Timestamp_2;
updateTime?: Timestamp_2;
}
interface DocumentChange {
document?: Document;
targetIds?: number[];
removedTargetIds?: number[];
}
interface DocumentDelete {
document?: string;
removedTargetIds?: number[];
readTime?: Timestamp_2;
}
interface DocumentMask {
fieldPaths?: string[];
}
interface DocumentRemove {
document?: string;
removedTargetIds?: number[];
readTime?: string;
}
interface DocumentTransform {
document?: string;
fieldTransforms?: FieldTransform[];
}
interface DocumentsTarget {
documents?: string[];
}
interface Empty {
}
interface ExistenceFilter {
targetId?: number;
count?: number;
unchangedNames?: BloomFilter;
}
interface BloomFilter {
bits?: BitSequence;
hashCount?: number;
}
interface BitSequence {
bitmap?: string | Uint8Array;
padding?: number;
}
interface FieldFilter {
field?: FieldReference;
op?: FieldFilterOp;
value?: Value;
}
interface FieldReference {
fieldPath?: string;
}
interface FieldTransform {
fieldPath?: string;
setToServerValue?: FieldTransformSetToServerValue;
appendMissingElements?: ArrayValue;
removeAllFromArray?: ArrayValue;
increment?: Value;
}
interface Filter {
compositeFilter?: CompositeFilter;
fieldFilter?: FieldFilter;
unaryFilter?: UnaryFilter;
}
interface Index {
name?: string;
collectionId?: string;
fields?: IndexField[];
state?: IndexState_2;
}
interface IndexField {
fieldPath?: string;
mode?: IndexFieldMode;
}
interface LatLng {
latitude?: number;
longitude?: number;
}
interface ListCollectionIdsRequest {
pageSize?: number;
pageToken?: string;
}
interface ListCollectionIdsResponse {
collectionIds?: string[];
nextPageToken?: string;
}
interface ListDocumentsResponse {
documents?: Document[];
nextPageToken?: string;
}
interface ListIndexesResponse {
indexes?: Index[];
nextPageToken?: string;
}
interface ListenRequest {
addTarget?: Target;
removeTarget?: number;
labels?: ApiClientObjectMap<string>;
}
interface ListenResponse {
targetChange?: TargetChange;
documentChange?: DocumentChange;
documentDelete?: DocumentDelete;
documentRemove?: DocumentRemove;
filter?: ExistenceFilter;
}
interface MapValue {
fields?: ApiClientObjectMap<Value>;
}
interface Operation {
name?: string;
metadata?: ApiClientObjectMap<any>;
done?: boolean;
error?: Status;
response?: ApiClientObjectMap<any>;
}
interface Order {
field?: FieldReference;
direction?: OrderDirection;
}
interface Precondition {
exists?: boolean;
updateTime?: Timestamp_2;
}
interface Projection {
fields?: FieldReference[];
}
interface QueryTarget {
parent?: string;
structuredQuery?: StructuredQuery;
}
interface ReadOnly {
readTime?: string;
}
interface ReadWrite {
retryTransaction?: string;
}
interface RollbackRequest {
transaction?: string;
}
interface RunQueryRequest {
parent?: string;
structuredQuery?: StructuredQuery;
transaction?: string;
newTransaction?: TransactionOptions;
readTime?: string;
}
interface RunQueryResponse {
transaction?: string;
document?: Document;
readTime?: string;
skippedResults?: number;
}
interface RunAggregationQueryRequest {
parent?: string;
structuredAggregationQuery?: StructuredAggregationQuery;
transaction?: string;
newTransaction?: TransactionOptions;
readTime?: string;
}
interface RunAggregationQueryResponse {
result?: AggregationResult;
transaction?: string;
readTime?: string;
}
interface AggregationResult {
aggregateFields?: ApiClientObjectMap<Value>;
}
interface StructuredAggregationQuery {
structuredQuery?: StructuredQuery;
aggregations?: Aggregation[];
}
interface Aggregation {
count?: Count;
sum?: Sum;
avg?: Avg;
alias?: string;
}
interface Count {
upTo?: number;
}
interface Sum {
field?: FieldReference;
}
interface Avg {
field?: FieldReference;
}
interface Status {
code?: number;
message?: string;
details?: Array<ApiClientObjectMap<any>>;
}
interface StructuredQuery {
select?: Projection;
from?: CollectionSelector[];
where?: Filter;
orderBy?: Order[];
startAt?: Cursor;
endAt?: Cursor;
offset?: number;
limit?: number | {
value: number;
};
}
interface Target {
query?: QueryTarget;
documents?: DocumentsTarget;
resumeToken?: string | Uint8Array;
readTime?: Timestamp_2;
targetId?: number;
once?: boolean;
expectedCount?: number | {
value: number;
};
}
interface TargetChange {
targetChangeType?: TargetChangeTargetChangeType;
targetIds?: number[];
cause?: Status;
resumeToken?: string | Uint8Array;
readTime?: Timestamp_2;
}
interface TransactionOptions {
readOnly?: ReadOnly;
readWrite?: ReadWrite;
}
interface UnaryFilter {
op?: UnaryFilterOp;
field?: FieldReference;
}
interface Value {
nullValue?: ValueNullValue;
booleanValue?: boolean;
integerValue?: string | number;
doubleValue?: string | number;
timestampValue?: Timestamp_2;
stringValue?: string;
bytesValue?: string | Uint8Array;
referenceValue?: string;
geoPointValue?: LatLng;
arrayValue?: ArrayValue;
mapValue?: MapValue;
}
interface Write {
update?: Document;
delete?: string;
verify?: string;
transform?: DocumentTransform;
updateMask?: DocumentMask;
updateTransforms?: FieldTransform[];
currentDocument?: Precondition;
}
interface WriteRequest {
streamId?: string;
writes?: Write[];
streamToken?: string | Uint8Array;
labels?: ApiClientObjectMap<string>;
}
interface WriteResponse {
streamId?: string;
streamToken?: string | Uint8Array;
writeResults?: WriteResult[];
commitTime?: Timestamp_2;
}
interface WriteResult {
updateTime?: Timestamp_2;
transformResults?: Value[];
}
}
/**
* @internal
*/
declare interface FirstPartyCredentialsSettings {
['type']: 'firstParty';
['sessionIndex']: string;
['iamToken']: string | null;
['authTokenFactory']: AuthTokenFactory | null;
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
declare type FulfilledHandler<T, R> = ((result: T) => R | PersistencePromise<R>) | null;
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* An immutable object representing a geographic location in Firestore. The
* location is represented as latitude/longitude pair.
*
* Latitude values are in the range of [-90, 90].
* Longitude values are in the range of [-180, 180].
*/
export declare class GeoPoint {
private _lat;
private _long;
/**
* Creates a new immutable `GeoPoint` object with the provided latitude and
* longitude values.
* @param latitude - The latitude as number between -90 and 90.
* @param longitude - The longitude as number between -180 and 180.
*/
constructor(latitude: number, longitude: number);
/**
* The latitude of this `GeoPoint` instance.
*/
get latitude(): number;
/**
* The longitude of this `GeoPoint` instance.
*/
get longitude(): number;
/**
* Returns true if this `GeoPoint` is equal to the provided one.
*
* @param other - The `GeoPoint` to compare against.
* @returns true if this `GeoPoint` is equal to the provided one.
*/
isEqual(other: GeoPoint): boolean;
/** Returns a JSON-serializable representation of this GeoPoint. */
toJSON(): {
latitude: number;
longitude: number;
};
/**
* Actually private to JS consumers of our API, so this function is prefixed
* with an underscore.
*/
_compareTo(other: GeoPoint): number;
}
/**
* Calculates the specified aggregations over the documents in the result
* set of the given query without actually downloading the documents.
*
* Using this function to perform aggregations is efficient because only the
* final aggregation values, not the documents' data, are downloaded. This
* function can perform aggregations of the documents in cases where the result
* set is prohibitively large to download entirely (thousands of documents).
*
* @param query The query whose result set is aggregated over.
* @param aggregateSpec An `AggregateSpec` object that specifies the aggregates
* to perform over the result set. The AggregateSpec specifies aliases for each
* aggregate, which can be used to retrieve the aggregate result.
* @example
* ```typescript
* const aggregateSnapshot = await getAggregate(query, {
* countOfDocs: count(),
* totalHours: sum('hours'),
* averageScore: average('score')
* });
*
* const countOfDocs: number = aggregateSnapshot.data().countOfDocs;
* const totalHours: number = aggregateSnapshot.data().totalHours;
* const averageScore: number | null = aggregateSnapshot.data().averageScore;
* ```
*/
export declare function getAggregate<AggregateSpecType extends AggregateSpec, AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>, aggregateSpec: AggregateSpecType): Promise<AggregateQuerySnapshot<AggregateSpecType, AppModelType, DbModelType>>;
/**
* Calculates the number of documents in the result set of the given query
* without actually downloading the documents.
*
* Using this function to count the documents is efficient because only the
* final count, not the documents' data, is downloaded. This function can
* count the documents in cases where the result set is prohibitively large to
* download entirely (thousands of documents).
*
* @param query The query whose result set size is calculated.
* @returns A Promise that will be resolved with the count; the count can be
* retrieved from `snapshot.data().count`, where `snapshot` is the
* `AggregateQuerySnapshot` to which the returned Promise resolves.
*/
export declare function getCount<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Promise<AggregateQuerySnapshot<{
count: AggregateField<number>;
}, AppModelType, DbModelType>>;
/**
* Reads the document referred to by the specified document reference.
*
* All documents are directly fetched from the server, even if the document was
* previously read or modified. Recent modifications are only reflected in the
* retrieved `DocumentSnapshot` if they have already been applied by the
* backend. If the client is offline, the read fails. If you like to use
* caching or see local modifications, please use the full Firestore SDK.
*
* @param reference - The reference of the document to fetch.
* @returns A Promise resolved with a `DocumentSnapshot` containing the current
* document contents.
*/
export declare function getDoc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>): Promise<DocumentSnapshot<AppModelType, DbModelType>>;
/**
* Executes the query and returns the results as a {@link QuerySnapshot}.
*
* All queries are executed directly by the server, even if the the query was
* previously executed. Recent modifications are only reflected in the retrieved
* results if they have already been applied by the backend. If the client is
* offline, the operation fails. To see previously cached result and local
* modifications, use the full Firestore SDK.
*
* @param query - The `Query` to execute.
* @returns A Promise that will be resolved with the results of the query.
*/
export declare function getDocs<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Promise<QuerySnapshot<AppModelType, DbModelType>>;
/**
* Returns the existing default {@link Firestore} instance that is associated with the
* default {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new
* instance with default settings.
*
* @returns The {@link Firestore} instance of the provided app.
*/
export declare function getFirestore(): Firestore;
/**
* Returns the existing default {@link Firestore} instance that is associated with the
* provided {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new
* instance with default settings.
*
* @param app - The {@link @firebase/app#FirebaseApp} instance that the returned {@link Firestore}
* instance is associated with.
* @returns The {@link Firestore} instance of the provided app.
*/
export declare function getFirestore(app: FirebaseApp): Firestore;
/**
* Returns the existing {@link Firestore} instance that is associated with the
* default {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new
* instance with default settings.
*
* @param databaseId - The name of the database.
* @returns The {@link Firestore} instance of the provided app.
* @beta
*/
export declare function getFirestore(databaseId: string): Firestore;
/**
* Returns the existing {@link Firestore} instance that is associated with the
* provided {@link @firebase/app#FirebaseApp}. If no instance exists, initializes a new
* instance with default settings.
*
* @param app - The {@link @firebase/app#FirebaseApp} instance that the returned {@link Firestore}
* instance is associated with.
* @param databaseId - The name of the database.
* @returns The {@link Firestore} instance of the provided app.
* @beta
*/
export declare function getFirestore(app: FirebaseApp, databaseId: string): Firestore;
/**
* Returns a special value that can be used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link
* @firebase/firestore/lite#(updateDoc:1)} that tells the server to increment the field's current value by
* the given value.
*
* If either the operand or the current field value uses floating point
* precision, all arithmetic follows IEEE 754 semantics. If both values are
* integers, values outside of JavaScript's safe number range
* (`Number.MIN_SAFE_INTEGER` to `Number.MAX_SAFE_INTEGER`) are also subject to
* precision loss. Furthermore, once processed by the Firestore backend, all
* integer operations are capped between -2^63 and 2^63-1.
*
* If the current field value is not of type `number`, or if the field does not
* yet exist, the transformation sets the field to the given value.
*
* @param n - The value to increment by.
* @returns The `FieldValue` sentinel for use in a call to `setDoc()` or
* `updateDoc()`
*/
export declare function increment(n: number): FieldValue;
declare type IndexFieldMode = 'MODE_UNSPECIFIED' | 'ASCENDING' | 'DESCENDING';
/** The type of the index, e.g. for which type of query it can be used. */
declare const enum IndexKind {
/**
* Ordered index. Can be used for <, <=, ==, >=, >, !=, IN and NOT IN queries.
*/
ASCENDING = 0,
/**
* Ordered index. Can be used for <, <=, ==, >=, >, !=, IN and NOT IN queries.
*/
DESCENDING = 1,
/** Contains index. Can be used for ArrayContains and ArrayContainsAny. */
CONTAINS = 2
}
/**
* Represents a set of indexes that are used to execute queries efficiently.
*
* Currently the only index is a [collection id] =&gt; [parent path] index, used
* to execute Collection Group queries.
*/
declare interface IndexManager {
/**
* Creates an index entry mapping the collectionId (last segment of the path)
* to the parent path (either the containing document location or the empty
* path for root-level collections). Index entries can be retrieved via
* getCollectionParents().
*
* NOTE: Currently we don't remove index entries. If this ends up being an
* issue we can devise some sort of GC strategy.
*/
addToCollectionParentIndex(transaction: PersistenceTransaction, collectionPath: ResourcePath): PersistencePromise<void>;
/**
* Retrieves all parent locations containing the given collectionId, as a
* list of paths (each path being either a document location or the empty
* path for a root-level collection).
*/
getCollectionParents(transaction: PersistenceTransaction, collectionId: string): PersistencePromise<ResourcePath[]>;
/**
* Adds a field path index.
*
* Values for this index are persisted via the index backfill, which runs
* asynchronously in the background. Once the first values are written,
* an index can be used to serve partial results for any matching queries.
* Any unindexed portion of the database will continue to be served via
* collection scons.
*/
addFieldIndex(transaction: PersistenceTransaction, index: FieldIndex): PersistencePromise<void>;
/** Removes the given field index and deletes all index values. */
deleteFieldIndex(transaction: PersistenceTransaction, index: FieldIndex): PersistencePromise<void>;
/** Removes all field indexes and deletes all index values. */
deleteAllFieldIndexes(transaction: PersistenceTransaction): PersistencePromise<void>;
/** Creates a full matched field index which serves the given target. */
createTargetIndexes(transaction: PersistenceTransaction, target: Target): PersistencePromise<void>;
/**
* Returns a list of field indexes that correspond to the specified collection
* group.
*
* @param collectionGroup The collection group to get matching field indexes
* for.
* @return A collection of field indexes for the specified collection group.
*/
getFieldIndexes(transaction: PersistenceTransaction, collectionGroup: string): PersistencePromise<FieldIndex[]>;
/** Returns all configured field indexes. */
getFieldIndexes(transaction: PersistenceTransaction): PersistencePromise<FieldIndex[]>;
/**
* Returns the type of index (if any) that can be used to serve the given
* target.
*/
getIndexType(transaction: PersistenceTransaction, target: Target): PersistencePromise<IndexType>;
/**
* Returns the documents that match the given target based on the provided
* index or `null` if the target does not have a matching index.
*/
getDocumentsMatchingTarget(transaction: PersistenceTransaction, target: Target): PersistencePromise<DocumentKey[] | null>;
/**
* Returns the next collection group to update. Returns `null` if no group
* exists.
*/
getNextCollectionGroupToUpdate(transaction: PersistenceTransaction): PersistencePromise<string | null>;
/**
* Sets the collection group's latest read time.
*
* This method updates the index offset for all field indices for the
* collection group and increments their sequence number. Subsequent calls to
* `getNextCollectionGroupToUpdate()` will return a different collection group
* (unless only one collection group is configured).
*/
updateCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string, offset: IndexOffset): PersistencePromise<void>;
/** Updates the index entries for the provided documents. */
updateIndexEntries(transaction: PersistenceTransaction, documents: DocumentMap): PersistencePromise<void>;
/**
* Iterates over all field indexes that are used to serve the given target,
* and returns the minimum offset of them all.
*/
getMinOffset(transaction: PersistenceTransaction, target: Target): PersistencePromise<IndexOffset>;
/** Returns the minimum offset for the given collection group. */
getMinOffsetFromCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string): PersistencePromise<IndexOffset>;
}
/**
* Stores the latest read time, document and batch ID that were processed for an
* index.
*/
declare class IndexOffset {
/**
* The latest read time version that has been indexed by Firestore for this
* field index.
*/
readonly readTime: SnapshotVersion;
/**
* The key of the last document that was indexed for this query. Use
* `DocumentKey.empty()` if no document has been indexed.
*/
readonly documentKey: DocumentKey;
readonly largestBatchId: number;
constructor(
/**
* The latest read time version that has been indexed by Firestore for this
* field index.
*/
readTime: SnapshotVersion,
/**
* The key of the last document that was indexed for this query. Use
* `DocumentKey.empty()` if no document has been indexed.
*/
documentKey: DocumentKey, largestBatchId: number);
/** Returns an offset that sorts before all regular offsets. */
static min(): IndexOffset;
/** Returns an offset that sorts after all regular offsets. */
static max(): IndexOffset;
}
/** An index component consisting of field path and index type. */
declare class IndexSegment {
/** The field path of the component. */
readonly fieldPath: FieldPath_2;
/** The fields sorting order. */
readonly kind: IndexKind;
constructor(
/** The field path of the component. */
fieldPath: FieldPath_2,
/** The fields sorting order. */
kind: IndexKind);
}
/**
* Stores the "high water mark" that indicates how updated the Index is for the
* current user.
*/
declare class IndexState {
/**
* Indicates when the index was last updated (relative to other indexes).
*/
readonly sequenceNumber: number;
/** The the latest indexed read time, document and batch id. */
readonly offset: IndexOffset;
constructor(
/**
* Indicates when the index was last updated (relative to other indexes).
*/
sequenceNumber: number,
/** The the latest indexed read time, document and batch id. */
offset: IndexOffset);
/** The state of an index that has not yet been backfilled. */
static empty(): IndexState;
}
declare type IndexState_2 = 'STATE_UNSPECIFIED' | 'CREATING' | 'READY' | 'ERROR';
/** Represents the index state as it relates to a particular target. */
declare const enum IndexType {
/** Indicates that no index could be found for serving the target. */
NONE = 0,
/**
* Indicates that only a "partial index" could be found for serving the
* target. A partial index is one which does not have a segment for every
* filter/orderBy in the target.
*/
PARTIAL = 1,
/**
* Indicates that a "full index" could be found for serving the target. A full
* index is one which has a segment for every filter/orderBy in the target.
*/
FULL = 2
}
/**
* Initializes a new instance of Cloud Firestore with the provided settings.
* Can only be called before any other functions, including
* {@link (getFirestore:1)}. If the custom settings are empty, this function is
* equivalent to calling {@link (getFirestore:1)}.
*
* @param app - The {@link @firebase/app#FirebaseApp} with which the `Firestore` instance will
* be associated.
* @param settings - A settings object to configure the `Firestore` instance.
* @returns A newly initialized `Firestore` instance.
*/
export declare function initializeFirestore(app: FirebaseApp, settings: Settings): Firestore;
/**
* Initializes a new instance of Cloud Firestore with the provided settings.
* Can only be called before any other functions, including
* {@link (getFirestore:1)}. If the custom settings are empty, this function is
* equivalent to calling {@link (getFirestore:1)}.
*
* @param app - The {@link @firebase/app#FirebaseApp} with which the `Firestore` instance will
* be associated.
* @param settings - A settings object to configure the `Firestore` instance.
* @param databaseId - The name of the database.
* @returns A newly initialized `Firestore` instance.
* @beta
*/
export declare function initializeFirestore(app: FirebaseApp, settings: Settings, databaseId?: string): Firestore;
/**
* This class generates JsonObject values for the Datastore API suitable for
* sending to either GRPC stub methods or via the JSON/HTTP REST API.
*
* The serializer supports both Protobuf.js and Proto3 JSON formats. By
* setting `useProto3Json` to true, the serializer will use the Proto3 JSON
* format.
*
* For a description of the Proto3 JSON format check
* https://developers.google.com/protocol-buffers/docs/proto3#json
*
* TODO(klimt): We can remove the databaseId argument if we keep the full
* resource name in documents.
*/
declare class JsonProtoSerializer implements Serializer {
readonly databaseId: DatabaseId;
readonly useProto3Json: boolean;
constructor(databaseId: DatabaseId, useProto3Json: boolean);
}
/**
* Creates a {@link QueryLimitConstraint} that only returns the first matching
* documents.
*
* @param limit - The maximum number of items to return.
* @returns The created {@link QueryLimitConstraint}.
*/
export declare function limit(limit: number): QueryLimitConstraint;
/**
* Creates a {@link QueryLimitConstraint} that only returns the last matching
* documents.
*
* You must specify at least one `orderBy` clause for `limitToLast` queries,
* otherwise an exception will be thrown during execution.
*
* @param limit - The maximum number of items to return.
* @returns The created {@link QueryLimitConstraint}.
*/
export declare function limitToLast(limit: number): QueryLimitConstraint;
declare const enum LimitType {
First = "F",
Last = "L"
}
/** LimitType enum. */
declare type LimitType_2 = 'FIRST' | 'LAST';
declare type ListenSequenceNumber = number;
declare class LLRBEmptyNode<K, V> {
get key(): never;
get value(): never;
get color(): never;
get left(): never;
get right(): never;
size: number;
copy(key: K | null, value: V | null, color: boolean | null, left: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null): LLRBEmptyNode<K, V>;
insert(key: K, value: V, comparator: Comparator<K>): LLRBNode<K, V>;
remove(key: K, comparator: Comparator<K>): LLRBEmptyNode<K, V>;
isEmpty(): boolean;
inorderTraversal(action: (k: K, v: V) => boolean): boolean;
reverseTraversal(action: (k: K, v: V) => boolean): boolean;
minKey(): K | null;
maxKey(): K | null;
isRed(): boolean;
checkMaxDepth(): boolean;
protected check(): 0;
}
declare class LLRBNode<K, V> {
key: K;
value: V;
readonly color: boolean;
readonly left: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
readonly right: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
readonly size: number;
static EMPTY: LLRBEmptyNode<any, any>;
static RED: boolean;
static BLACK: boolean;
constructor(key: K, value: V, color?: boolean, left?: LLRBNode<K, V> | LLRBEmptyNode<K, V>, right?: LLRBNode<K, V> | LLRBEmptyNode<K, V>);
copy(key: K | null, value: V | null, color: boolean | null, left: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null, right: LLRBNode<K, V> | LLRBEmptyNode<K, V> | null): LLRBNode<K, V>;
isEmpty(): boolean;
inorderTraversal<T>(action: (k: K, v: V) => T): T;
reverseTraversal<T>(action: (k: K, v: V) => T): T;
private min;
minKey(): K | null;
maxKey(): K | null;
insert(key: K, value: V, comparator: Comparator<K>): LLRBNode<K, V>;
private removeMin;
remove(key: K, comparator: Comparator<K>): LLRBNode<K, V> | LLRBEmptyNode<K, V>;
isRed(): boolean;
private fixUp;
private moveRedLeft;
private moveRedRight;
private rotateLeft;
private rotateRight;
private colorFlip;
checkMaxDepth(): boolean;
protected check(): number;
}
/**
* A readonly view of the local state of all documents we're tracking (i.e. we
* have a cached version in remoteDocumentCache or local mutations for the
* document). The view is computed by applying the mutations in the
* MutationQueue to the RemoteDocumentCache.
*/
declare class LocalDocumentsView {
readonly remoteDocumentCache: RemoteDocumentCache;
readonly mutationQueue: MutationQueue;
readonly documentOverlayCache: DocumentOverlayCache;
readonly indexManager: IndexManager;
constructor(remoteDocumentCache: RemoteDocumentCache, mutationQueue: MutationQueue, documentOverlayCache: DocumentOverlayCache, indexManager: IndexManager);
/**
* Get the local view of the document identified by `key`.
*
* @returns Local view of the document or null if we don't have any cached
* state for it.
*/
getDocument(transaction: PersistenceTransaction, key: DocumentKey): PersistencePromise<Document_2>;
/**
* Gets the local view of the documents identified by `keys`.
*
* If we don't have cached state for a document in `keys`, a NoDocument will
* be stored for that key in the resulting set.
*/
getDocuments(transaction: PersistenceTransaction, keys: DocumentKeySet): PersistencePromise<DocumentMap>;
/**
* Similar to `getDocuments`, but creates the local view from the given
* `baseDocs` without retrieving documents from the local store.
*
* @param transaction - The transaction this operation is scoped to.
* @param docs - The documents to apply local mutations to get the local views.
* @param existenceStateChanged - The set of document keys whose existence state
* is changed. This is useful to determine if some documents overlay needs
* to be recalculated.
*/
getLocalViewOfDocuments(transaction: PersistenceTransaction, docs: MutableDocumentMap, existenceStateChanged?: DocumentKeySet): PersistencePromise<DocumentMap>;
/**
* Gets the overlayed documents for the given document map, which will include
* the local view of those documents and a `FieldMask` indicating which fields
* are mutated locally, `null` if overlay is a Set or Delete mutation.
*/
getOverlayedDocuments(transaction: PersistenceTransaction, docs: MutableDocumentMap): PersistencePromise<OverlayedDocumentMap>;
/**
* Fetches the overlays for {@code docs} and adds them to provided overlay map
* if the map does not already contain an entry for the given document key.
*/
private populateOverlays;
/**
* Computes the local view for the given documents.
*
* @param docs - The documents to compute views for. It also has the base
* version of the documents.
* @param overlays - The overlays that need to be applied to the given base
* version of the documents.
* @param existenceStateChanged - A set of documents whose existence states
* might have changed. This is used to determine if we need to re-calculate
* overlays from mutation queues.
* @return A map represents the local documents view.
*/
computeViews(transaction: PersistenceTransaction, docs: MutableDocumentMap, overlays: OverlayMap, existenceStateChanged: DocumentKeySet): PersistencePromise<OverlayedDocumentMap>;
private recalculateAndSaveOverlays;
/**
* Recalculates overlays by reading the documents from remote document cache
* first, and saves them after they are calculated.
*/
recalculateAndSaveOverlaysForDocumentKeys(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<DocumentKeyMap<FieldMask | null>>;
/**
* Performs a query against the local view of all documents.
*
* @param transaction - The persistence transaction.
* @param query - The query to match documents against.
* @param offset - Read time and key to start scanning by (exclusive).
* @param context - A optional tracker to keep a record of important details
* during database local query execution.
*/
getDocumentsMatchingQuery(transaction: PersistenceTransaction, query: Query_2, offset: IndexOffset, context?: QueryContext): PersistencePromise<DocumentMap>;
/**
* Given a collection group, returns the next documents that follow the provided offset, along
* with an updated batch ID.
*
* <p>The documents returned by this method are ordered by remote version from the provided
* offset. If there are no more remote documents after the provided offset, documents with
* mutations in order of batch id from the offset are returned. Since all documents in a batch are
* returned together, the total number of documents returned can exceed {@code count}.
*
* @param transaction
* @param collectionGroup The collection group for the documents.
* @param offset The offset to index into.
* @param count The number of documents to return
* @return A LocalWriteResult with the documents that follow the provided offset and the last processed batch id.
*/
getNextDocuments(transaction: PersistenceTransaction, collectionGroup: string, offset: IndexOffset, count: number): PersistencePromise<LocalWriteResult>;
private getDocumentsMatchingDocumentQuery;
private getDocumentsMatchingCollectionGroupQuery;
private getDocumentsMatchingCollectionQuery;
}
declare interface LocalStore {
collectGarbage(garbageCollector: LruGarbageCollector): Promise<LruResults>;
/** Manages the list of active field and collection indices. */
indexManager: IndexManager;
/**
* The "local" view of all documents (layering mutationQueue on top of
* remoteDocumentCache).
*/
localDocuments: LocalDocumentsView;
}
/** The result of a write to the local store. */
declare interface LocalWriteResult {
batchId: BatchId;
changes: DocumentMap;
}
export { LogLevel }
declare interface LruGarbageCollector {
readonly params: LruParams;
collect(txn: PersistenceTransaction, activeTargetIds: ActiveTargets): PersistencePromise<LruResults>;
/** Given a percentile of target to collect, returns the number of targets to collect. */
calculateTargetCount(txn: PersistenceTransaction, percentile: number): PersistencePromise<number>;
/** Returns the nth sequence number, counting in order from the smallest. */
nthSequenceNumber(txn: PersistenceTransaction, n: number): PersistencePromise<number>;
/**
* Removes documents that have a sequence number equal to or less than the
* upper bound and are not otherwise pinned.
*/
removeOrphanedDocuments(txn: PersistenceTransaction, upperBound: ListenSequenceNumber): PersistencePromise<number>;
getCacheSize(txn: PersistenceTransaction): PersistencePromise<number>;
/**
* Removes targets with a sequence number equal to or less than the given
* upper bound, and removes document associations with those targets.
*/
removeTargets(txn: PersistenceTransaction, upperBound: ListenSequenceNumber, activeTargetIds: ActiveTargets): PersistencePromise<number>;
}
declare class LruParams {
readonly cacheSizeCollectionThreshold: number;
readonly percentileToCollect: number;
readonly maximumSequenceNumbersToCollect: number;
private static readonly DEFAULT_COLLECTION_PERCENTILE;
private static readonly DEFAULT_MAX_SEQUENCE_NUMBERS_TO_COLLECT;
static withCacheSize(cacheSize: number): LruParams;
static readonly DEFAULT: LruParams;
static readonly DISABLED: LruParams;
constructor(cacheSizeCollectionThreshold: number, percentileToCollect: number, maximumSequenceNumbersToCollect: number);
}
/**
* Describes the results of a garbage collection run. `didRun` will be set to
* `false` if collection was skipped (either it is disabled or the cache size
* has not hit the threshold). If collection ran, the other fields will be
* filled in with the details of the results.
*/
declare interface LruResults {
readonly didRun: boolean;
readonly sequenceNumbersCollected: number;
readonly targetsRemoved: number;
readonly documentsRemoved: number;
}
declare type MapValue = firestoreV1ApiClientInterfaces.MapValue;
/**
* Provides an in-memory cache to the SDK. This is the default cache unless explicitly
* configured otherwise.
*
* To use, create an instance using the factory function {@link memoryLocalCache()}, then
* set the instance to `FirestoreSettings.cache` and call `initializeFirestore` using
* the settings object.
*/
declare type MemoryLocalCache = {
kind: 'memory';
/**
* @internal
*/
_onlineComponentProvider: OnlineComponentProvider;
/**
* @internal
*/
_offlineComponentProvider: MemoryOfflineComponentProvider;
};
/**
* Provides all components needed for Firestore with in-memory persistence.
* Uses EagerGC garbage collection.
*/
declare class MemoryOfflineComponentProvider implements OfflineComponentProvider {
persistence: Persistence;
sharedClientState: SharedClientState;
localStore: LocalStore;
gcScheduler: Scheduler | null;
indexBackfillerScheduler: Scheduler | null;
synchronizeTabs: boolean;
serializer: JsonProtoSerializer;
initialize(cfg: ComponentConfiguration): Promise<void>;
createGarbageCollectionScheduler(cfg: ComponentConfiguration, localStore: LocalStore): Scheduler | null;
createIndexBackfillerScheduler(cfg: ComponentConfiguration, localStore: LocalStore): Scheduler | null;
createLocalStore(cfg: ComponentConfiguration): LocalStore;
createPersistence(cfg: ComponentConfiguration): Persistence;
createSharedClientState(cfg: ComponentConfiguration): SharedClientState;
terminate(): Promise<void>;
}
/**
* Represents a document in Firestore with a key, version, data and whether it
* has local mutations applied to it.
*
* Documents can transition between states via `convertToFoundDocument()`,
* `convertToNoDocument()` and `convertToUnknownDocument()`. If a document does
* not transition to one of these states even after all mutations have been
* applied, `isValidDocument()` returns false and the document should be removed
* from all views.
*/
declare class MutableDocument implements Document_2 {
readonly key: DocumentKey;
private documentType;
version: SnapshotVersion;
readTime: SnapshotVersion;
createTime: SnapshotVersion;
data: ObjectValue;
private documentState;
private constructor();
/**
* Creates a document with no known version or data, but which can serve as
* base document for mutations.
*/
static newInvalidDocument(documentKey: DocumentKey): MutableDocument;
/**
* Creates a new document that is known to exist with the given data at the
* given version.
*/
static newFoundDocument(documentKey: DocumentKey, version: SnapshotVersion, createTime: SnapshotVersion, value: ObjectValue): MutableDocument;
/** Creates a new document that is known to not exist at the given version. */
static newNoDocument(documentKey: DocumentKey, version: SnapshotVersion): MutableDocument;
/**
* Creates a new document that is known to exist at the given version but
* whose data is not known (e.g. a document that was updated without a known
* base document).
*/
static newUnknownDocument(documentKey: DocumentKey, version: SnapshotVersion): MutableDocument;
/**
* Changes the document type to indicate that it exists and that its version
* and data are known.
*/
convertToFoundDocument(version: SnapshotVersion, value: ObjectValue): MutableDocument;
/**
* Changes the document type to indicate that it doesn't exist at the given
* version.
*/
convertToNoDocument(version: SnapshotVersion): MutableDocument;
/**
* Changes the document type to indicate that it exists at a given version but
* that its data is not known (e.g. a document that was updated without a known
* base document).
*/
convertToUnknownDocument(version: SnapshotVersion): MutableDocument;
setHasCommittedMutations(): MutableDocument;
setHasLocalMutations(): MutableDocument;
setReadTime(readTime: SnapshotVersion): MutableDocument;
get hasLocalMutations(): boolean;
get hasCommittedMutations(): boolean;
get hasPendingWrites(): boolean;
isValidDocument(): boolean;
isFoundDocument(): boolean;
isNoDocument(): boolean;
isUnknownDocument(): boolean;
isEqual(other: Document_2 | null | undefined): boolean;
mutableCopy(): MutableDocument;
toString(): string;
}
/** Miscellaneous collection types / constants. */
declare type MutableDocumentMap = SortedMap<DocumentKey, MutableDocument>;
/**
* A mutation describes a self-contained change to a document. Mutations can
* create, replace, delete, and update subsets of documents.
*
* Mutations not only act on the value of the document but also its version.
*
* For local mutations (mutations that haven't been committed yet), we preserve
* the existing version for Set and Patch mutations. For Delete mutations, we
* reset the version to 0.
*
* Here's the expected transition table.
*
* MUTATION APPLIED TO RESULTS IN
*
* SetMutation Document(v3) Document(v3)
* SetMutation NoDocument(v3) Document(v0)
* SetMutation InvalidDocument(v0) Document(v0)
* PatchMutation Document(v3) Document(v3)
* PatchMutation NoDocument(v3) NoDocument(v3)
* PatchMutation InvalidDocument(v0) UnknownDocument(v3)
* DeleteMutation Document(v3) NoDocument(v0)
* DeleteMutation NoDocument(v3) NoDocument(v0)
* DeleteMutation InvalidDocument(v0) NoDocument(v0)
*
* For acknowledged mutations, we use the updateTime of the WriteResponse as
* the resulting version for Set and Patch mutations. As deletes have no
* explicit update time, we use the commitTime of the WriteResponse for
* Delete mutations.
*
* If a mutation is acknowledged by the backend but fails the precondition check
* locally, we transition to an `UnknownDocument` and rely on Watch to send us
* the updated version.
*
* Field transforms are used only with Patch and Set Mutations. We use the
* `updateTransforms` message to store transforms, rather than the `transforms`s
* messages.
*
* ## Subclassing Notes
*
* Every type of mutation needs to implement its own applyToRemoteDocument() and
* applyToLocalView() to implement the actual behavior of applying the mutation
* to some source document (see `setMutationApplyToRemoteDocument()` for an
* example).
*/
declare abstract class Mutation {
abstract readonly type: MutationType;
abstract readonly key: DocumentKey;
abstract readonly precondition: Precondition;
abstract readonly fieldTransforms: FieldTransform[];
/**
* Returns a `FieldMask` representing the fields that will be changed by
* applying this mutation. Returns `null` if the mutation will overwrite the
* entire document.
*/
abstract getFieldMask(): FieldMask | null;
}
/**
* A batch of mutations that will be sent as one unit to the backend.
*/
declare class MutationBatch {
batchId: BatchId;
localWriteTime: Timestamp;
baseMutations: Mutation[];
mutations: Mutation[];
/**
* @param batchId - The unique ID of this mutation batch.
* @param localWriteTime - The original write time of this mutation.
* @param baseMutations - Mutations that are used to populate the base
* values when this mutation is applied locally. This can be used to locally
* overwrite values that are persisted in the remote document cache. Base
* mutations are never sent to the backend.
* @param mutations - The user-provided mutations in this mutation batch.
* User-provided mutations are applied both locally and remotely on the
* backend.
*/
constructor(batchId: BatchId, localWriteTime: Timestamp, baseMutations: Mutation[], mutations: Mutation[]);
/**
* Applies all the mutations in this MutationBatch to the specified document
* to compute the state of the remote document
*
* @param document - The document to apply mutations to.
* @param batchResult - The result of applying the MutationBatch to the
* backend.
*/
applyToRemoteDocument(document: MutableDocument, batchResult: MutationBatchResult): void;
/**
* Computes the local view of a document given all the mutations in this
* batch.
*
* @param document - The document to apply mutations to.
* @param mutatedFields - Fields that have been updated before applying this mutation batch.
* @returns A `FieldMask` representing all the fields that are mutated.
*/
applyToLocalView(document: MutableDocument, mutatedFields: FieldMask | null): FieldMask | null;
/**
* Computes the local view for all provided documents given the mutations in
* this batch. Returns a `DocumentKey` to `Mutation` map which can be used to
* replace all the mutation applications.
*/
applyToLocalDocumentSet(documentMap: OverlayedDocumentMap, documentsWithoutRemoteVersion: DocumentKeySet): MutationMap;
keys(): DocumentKeySet;
isEqual(other: MutationBatch): boolean;
}
/** The result of applying a mutation batch to the backend. */
declare class MutationBatchResult {
readonly batch: MutationBatch;
readonly commitVersion: SnapshotVersion;
readonly mutationResults: MutationResult[];
/**
* A pre-computed mapping from each mutated document to the resulting
* version.
*/
readonly docVersions: DocumentVersionMap;
private constructor();
/**
* Creates a new MutationBatchResult for the given batch and results. There
* must be one result for each mutation in the batch. This static factory
* caches a document=&gt;version mapping (docVersions).
*/
static from(batch: MutationBatch, commitVersion: SnapshotVersion, results: MutationResult[]): MutationBatchResult;
}
declare type MutationMap = DocumentKeyMap<Mutation>;
/** A queue of mutations to apply to the remote store. */
declare interface MutationQueue {
/** Returns true if this queue contains no mutation batches. */
checkEmpty(transaction: PersistenceTransaction): PersistencePromise<boolean>;
/**
* Creates a new mutation batch and adds it to this mutation queue.
*
* @param transaction - The transaction this operation is scoped to.
* @param localWriteTime - The original write time of this mutation.
* @param baseMutations - Mutations that are used to populate the base values
* when this mutation is applied locally. These mutations are used to locally
* overwrite values that are persisted in the remote document cache.
* @param mutations - The user-provided mutations in this mutation batch.
*/
addMutationBatch(transaction: PersistenceTransaction, localWriteTime: Timestamp, baseMutations: Mutation[], mutations: Mutation[]): PersistencePromise<MutationBatch>;
/**
* Loads the mutation batch with the given batchId.
*/
lookupMutationBatch(transaction: PersistenceTransaction, batchId: BatchId): PersistencePromise<MutationBatch | null>;
/**
* Gets the first unacknowledged mutation batch after the passed in batchId
* in the mutation queue or null if empty.
*
* @param batchId - The batch to search after, or BATCHID_UNKNOWN for the
* first mutation in the queue.
*
* @returns the next mutation or null if there wasn't one.
*/
getNextMutationBatchAfterBatchId(transaction: PersistenceTransaction, batchId: BatchId): PersistencePromise<MutationBatch | null>;
/**
* Gets the largest (latest) batch id in mutation queue for the current user
* that is pending server response, returns `BATCHID_UNKNOWN` if the queue is
* empty.
*
* @returns the largest batch id in the mutation queue that is not
* acknowledged.
*/
getHighestUnacknowledgedBatchId(transaction: PersistenceTransaction): PersistencePromise<BatchId>;
/** Gets all mutation batches in the mutation queue. */
getAllMutationBatches(transaction: PersistenceTransaction): PersistencePromise<MutationBatch[]>;
/**
* Finds all mutation batches that could possibly affect the given
* document key. Not all mutations in a batch will necessarily affect the
* document key, so when looping through the batch you'll need to check that
* the mutation itself matches the key.
*
* Batches are guaranteed to be in sorted order.
*
* Note that because of this requirement implementations are free to return
* mutation batches that don't contain the document key at all if it's
* convenient.
*/
getAllMutationBatchesAffectingDocumentKey(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutationBatch[]>;
/**
* Finds all mutation batches that could possibly affect the given set of
* document keys. Not all mutations in a batch will necessarily affect each
* key, so when looping through the batch you'll need to check that the
* mutation itself matches the key.
*
* Batches are guaranteed to be in sorted order.
*
* Note that because of this requirement implementations are free to return
* mutation batches that don't contain any of the document keys at all if it's
* convenient.
*/
getAllMutationBatchesAffectingDocumentKeys(transaction: PersistenceTransaction, documentKeys: SortedMap<DocumentKey, unknown>): PersistencePromise<MutationBatch[]>;
/**
* Finds all mutation batches that could affect the results for the given
* query. Not all mutations in a batch will necessarily affect the query, so
* when looping through the batch you'll need to check that the mutation
* itself matches the query.
*
* Batches are guaranteed to be in sorted order.
*
* Note that because of this requirement implementations are free to return
* mutation batches that don't match the query at all if it's convenient.
*
* NOTE: A PatchMutation does not need to include all fields in the query
* filter criteria in order to be a match (but any fields it does contain do
* need to match).
*/
getAllMutationBatchesAffectingQuery(transaction: PersistenceTransaction, query: Query_2): PersistencePromise<MutationBatch[]>;
/**
* Removes the given mutation batch from the queue. This is useful in two
* circumstances:
*
* + Removing an applied mutation from the head of the queue
* + Removing a rejected mutation from anywhere in the queue
*
* Multi-Tab Note: This operation should only be called by the primary client.
*/
removeMutationBatch(transaction: PersistenceTransaction, batch: MutationBatch): PersistencePromise<void>;
/**
* Performs a consistency check, examining the mutation queue for any
* leaks, if possible.
*/
performConsistencyCheck(transaction: PersistenceTransaction): PersistencePromise<void>;
}
/** The result of successfully applying a mutation to the backend. */
declare class MutationResult {
/**
* The version at which the mutation was committed:
*
* - For most operations, this is the updateTime in the WriteResult.
* - For deletes, the commitTime of the WriteResponse (because deletes are
* not stored and have no updateTime).
*
* Note that these versions can be different: No-op writes will not change
* the updateTime even though the commitTime advances.
*/
readonly version: SnapshotVersion;
/**
* The resulting fields returned from the backend after a mutation
* containing field transforms has been committed. Contains one FieldValue
* for each FieldTransform that was in the mutation.
*
* Will be empty if the mutation did not contain any field transforms.
*/
readonly transformResults: Array<Value | null>;
constructor(
/**
* The version at which the mutation was committed:
*
* - For most operations, this is the updateTime in the WriteResult.
* - For deletes, the commitTime of the WriteResponse (because deletes are
* not stored and have no updateTime).
*
* Note that these versions can be different: No-op writes will not change
* the updateTime even though the commitTime advances.
*/
version: SnapshotVersion,
/**
* The resulting fields returned from the backend after a mutation
* containing field transforms has been committed. Contains one FieldValue
* for each FieldTransform that was in the mutation.
*
* Will be empty if the mutation did not contain any field transforms.
*/
transformResults: Array<Value | null>);
}
declare const enum MutationType {
Set = 0,
Patch = 1,
Delete = 2,
Verify = 3
}
/**
* Represents a Query saved by the SDK in its local storage.
*/
declare interface NamedQuery {
/** The name of the query. */
readonly name: string;
/** The underlying query associated with `name`. */
readonly query: Query_2;
/** The time at which the results for this query were read. */
readonly readTime: SnapshotVersion;
}
/** Properties of a NamedQuery. */
declare interface NamedQuery_2 {
/** NamedQuery name */
name?: string | null;
/** NamedQuery bundledQuery */
bundledQuery?: BundledQuery | null;
/** NamedQuery readTime */
readTime?: Timestamp_2 | null;
}
/**
* For each field (e.g. 'bar'), find all nested keys (e.g. {'bar.baz': T1,
* 'bar.qux': T2}). Intersect them together to make a single map containing
* all possible keys that are all marked as optional
*/
export declare type NestedUpdateFields<T extends Record<string, unknown>> = UnionToIntersection<{
[K in keyof T & string]: ChildUpdateFields<K, T[K]>;
}[keyof T & string]>;
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* A map implementation that uses objects as keys. Objects must have an
* associated equals function and must be immutable. Entries in the map are
* stored together with the key being produced from the mapKeyFn. This map
* automatically handles collisions of keys.
*/
declare class ObjectMap<KeyType, ValueType> {
private mapKeyFn;
private equalsFn;
/**
* The inner map for a key/value pair. Due to the possibility of collisions we
* keep a list of entries that we do a linear search through to find an actual
* match. Note that collisions should be rare, so we still expect near
* constant time lookups in practice.
*/
private inner;
/** The number of entries stored in the map */
private innerSize;
constructor(mapKeyFn: (key: KeyType) => string, equalsFn: (l: KeyType, r: KeyType) => boolean);
/** Get a value for this key, or undefined if it does not exist. */
get(key: KeyType): ValueType | undefined;
has(key: KeyType): boolean;
/** Put this key and value in the map. */
set(key: KeyType, value: ValueType): void;
/**
* Remove this key from the map. Returns a boolean if anything was deleted.
*/
delete(key: KeyType): boolean;
forEach(fn: (key: KeyType, val: ValueType) => void): void;
isEmpty(): boolean;
size(): number;
}
/**
* An ObjectValue represents a MapValue in the Firestore Proto and offers the
* ability to add and remove fields (via the ObjectValueBuilder).
*/
declare class ObjectValue {
readonly value: {
mapValue: MapValue;
};
constructor(value: {
mapValue: MapValue;
});
static empty(): ObjectValue;
/**
* Returns the value at the given path or null.
*
* @param path - the path to search
* @returns The value at the path or null if the path is not set.
*/
field(path: FieldPath_2): Value | null;
/**
* Sets the field to the provided value.
*
* @param path - The field path to set.
* @param value - The value to set.
*/
set(path: FieldPath_2, value: Value): void;
/**
* Sets the provided fields to the provided values.
*
* @param data - A map of fields to values (or null for deletes).
*/
setAll(data: Map<FieldPath_2, Value | null>): void;
/**
* Removes the field at the specified path. If there is no field at the
* specified path, nothing is changed.
*
* @param path - The field path to remove.
*/
delete(path: FieldPath_2): void;
isEqual(other: ObjectValue): boolean;
/**
* Returns the map that contains the leaf element of `path`. If the parent
* entry does not yet exist, or if it is not a map, a new map will be created.
*/
private getFieldsMap;
/**
* Modifies `fieldsMap` by adding, replacing or deleting the specified
* entries.
*/
private applyChanges;
clone(): ObjectValue;
}
/**
* Initializes and wires components that are needed to interface with the local
* cache. Implementations override `initialize()` to provide all components.
*/
declare interface OfflineComponentProvider {
persistence: Persistence;
sharedClientState: SharedClientState;
localStore: LocalStore;
gcScheduler: Scheduler | null;
indexBackfillerScheduler: Scheduler | null;
synchronizeTabs: boolean;
initialize(cfg: ComponentConfiguration): Promise<void>;
terminate(): Promise<void>;
}
/**
* Initializes and wires the components that are needed to interface with the
* network.
*/
declare class OnlineComponentProvider {
protected localStore: LocalStore;
protected sharedClientState: SharedClientState;
datastore: Datastore;
eventManager: EventManager;
remoteStore: RemoteStore;
syncEngine: SyncEngine;
initialize(offlineComponentProvider: OfflineComponentProvider, cfg: ComponentConfiguration): Promise<void>;
createEventManager(cfg: ComponentConfiguration): EventManager;
createDatastore(cfg: ComponentConfiguration): Datastore;
createRemoteStore(cfg: ComponentConfiguration): RemoteStore;
createSyncEngine(cfg: ComponentConfiguration, startAsPrimary: boolean): SyncEngine;
terminate(): Promise<void>;
}
/**
* Describes the online state of the Firestore client. Note that this does not
* indicate whether or not the remote store is trying to connect or not. This is
* primarily used by the View / EventManager code to change their behavior while
* offline (e.g. get() calls shouldn't wait for data from the server and
* snapshot events should set metadata.isFromCache=true).
*
* The string values should not be changed since they are persisted in
* WebStorage.
*/
declare const enum OnlineState {
/**
* The Firestore client is in an unknown online state. This means the client
* is either not actively trying to establish a connection or it is currently
* trying to establish a connection, but it has not succeeded or failed yet.
* Higher-level components should not operate in offline mode.
*/
Unknown = "Unknown",
/**
* The client is connected and the connections are healthy. This state is
* reached after a successful connection and there has been at least one
* successful message received from the backends.
*/
Online = "Online",
/**
* The client is either trying to establish a connection but failing, or it
* has been explicitly marked offline via a call to disableNetwork().
* Higher-level components should operate in offline mode.
*/
Offline = "Offline"
}
declare const enum Operator {
LESS_THAN = "<",
LESS_THAN_OR_EQUAL = "<=",
EQUAL = "==",
NOT_EQUAL = "!=",
GREATER_THAN = ">",
GREATER_THAN_OR_EQUAL = ">=",
ARRAY_CONTAINS = "array-contains",
IN = "in",
NOT_IN = "not-in",
ARRAY_CONTAINS_ANY = "array-contains-any"
}
/**
* Creates a new {@link QueryCompositeFilterConstraint} that is a disjunction of
* the given filter constraints. A disjunction filter includes a document if it
* satisfies any of the given filters.
*
* @param queryConstraints - Optional. The list of
* {@link QueryFilterConstraint}s to perform a disjunction for. These must be
* created with calls to {@link where}, {@link or}, or {@link and}.
* @returns The newly created {@link QueryCompositeFilterConstraint}.
*/
export declare function or(...queryConstraints: QueryFilterConstraint[]): QueryCompositeFilterConstraint;
/**
* An ordering on a field, in some Direction. Direction defaults to ASCENDING.
*/
declare class OrderBy {
readonly field: FieldPath_2;
readonly dir: Direction;
constructor(field: FieldPath_2, dir?: Direction);
}
/**
* Creates a {@link QueryOrderByConstraint} that sorts the query result by the
* specified field, optionally in descending order instead of ascending.
*
* Note: Documents that do not contain the specified field will not be present
* in the query result.
*
* @param fieldPath - The field to sort by.
* @param directionStr - Optional direction to sort by ('asc' or 'desc'). If
* not specified, order will be ascending.
* @returns The created {@link QueryOrderByConstraint}.
*/
export declare function orderBy(fieldPath: string | FieldPath, directionStr?: OrderByDirection): QueryOrderByConstraint;
/**
* The direction of a {@link orderBy} clause is specified as 'desc' or 'asc'
* (descending or ascending).
*/
export declare type OrderByDirection = 'desc' | 'asc';
declare type OrderDirection = 'DIRECTION_UNSPECIFIED' | 'ASCENDING' | 'DESCENDING';
/**
* Representation of an overlay computed by Firestore.
*
* Holds information about a mutation and the largest batch id in Firestore when
* the mutation was created.
*/
declare class Overlay {
readonly largestBatchId: number;
readonly mutation: Mutation;
constructor(largestBatchId: number, mutation: Mutation);
getKey(): DocumentKey;
isEqual(other: Overlay | null): boolean;
toString(): string;
}
/**
* Represents a local view (overlay) of a document, and the fields that are
* locally mutated.
*/
declare class OverlayedDocument {
readonly overlayedDocument: Document_2;
/**
* The fields that are locally mutated by patch mutations.
*
* If the overlayed document is from set or delete mutations, this is `null`.
* If there is no overlay (mutation) for the document, this is an empty `FieldMask`.
*/
readonly mutatedFields: FieldMask | null;
constructor(overlayedDocument: Document_2,
/**
* The fields that are locally mutated by patch mutations.
*
* If the overlayed document is from set or delete mutations, this is `null`.
* If there is no overlay (mutation) for the document, this is an empty `FieldMask`.
*/
mutatedFields: FieldMask | null);
}
declare type OverlayedDocumentMap = DocumentKeyMap<OverlayedDocument>;
declare type OverlayMap = DocumentKeyMap<Overlay>;
declare interface ParseContext {
readonly databaseId: DatabaseId;
readonly ignoreUndefinedProperties: boolean;
}
/** The result of parsing document data (e.g. for a setData call). */
declare class ParsedSetData {
readonly data: ObjectValue;
readonly fieldMask: FieldMask | null;
readonly fieldTransforms: FieldTransform[];
constructor(data: ObjectValue, fieldMask: FieldMask | null, fieldTransforms: FieldTransform[]);
toMutation(key: DocumentKey, precondition: Precondition): Mutation;
}
/** The result of parsing "update" data (i.e. for an updateData call). */
declare class ParsedUpdateData {
readonly data: ObjectValue;
readonly fieldMask: FieldMask;
readonly fieldTransforms: FieldTransform[];
constructor(data: ObjectValue, fieldMask: FieldMask, fieldTransforms: FieldTransform[]);
toMutation(key: DocumentKey, precondition: Precondition): Mutation;
}
/**
* Similar to Typescript's `Partial<T>`, but allows nested fields to be
* omitted and FieldValues to be passed in as property values.
*/
export declare type PartialWithFieldValue<T> = Partial<T> | (T extends Primitive ? T : T extends {} ? {
[K in keyof T]?: PartialWithFieldValue<T[K]> | FieldValue;
} : never);
/**
* Persistence is the lowest-level shared interface to persistent storage in
* Firestore.
*
* Persistence is used to create MutationQueue and RemoteDocumentCache
* instances backed by persistence (which might be in-memory or LevelDB).
*
* Persistence also exposes an API to create and run PersistenceTransactions
* against persistence. All read / write operations must be wrapped in a
* transaction. Implementations of PersistenceTransaction / Persistence only
* need to guarantee that writes made against the transaction are not made to
* durable storage until the transaction resolves its PersistencePromise.
* Since memory-only storage components do not alter durable storage, they are
* free to ignore the transaction.
*
* This contract is enough to allow the LocalStore be be written
* independently of whether or not the stored state actually is durably
* persisted. If persistent storage is enabled, writes are grouped together to
* avoid inconsistent state that could cause crashes.
*
* Concretely, when persistent storage is enabled, the persistent versions of
* MutationQueue, RemoteDocumentCache, and others (the mutators) will
* defer their writes into a transaction. Once the local store has completed
* one logical operation, it commits the transaction.
*
* When persistent storage is disabled, the non-persistent versions of the
* mutators ignore the transaction. This short-cut is allowed because
* memory-only storage leaves no state so it cannot be inconsistent.
*
* This simplifies the implementations of the mutators and allows memory-only
* implementations to supplement the persistent ones without requiring any
* special dual-store implementation of Persistence. The cost is that the
* LocalStore needs to be slightly careful about the order of its reads and
* writes in order to avoid relying on being able to read back uncommitted
* writes.
*/
declare interface Persistence {
/**
* Whether or not this persistence instance has been started.
*/
readonly started: boolean;
readonly referenceDelegate: ReferenceDelegate;
/** Starts persistence. */
start(): Promise<void>;
/**
* Releases any resources held during eager shutdown.
*/
shutdown(): Promise<void>;
/**
* Registers a listener that gets called when the database receives a
* version change event indicating that it has deleted.
*
* PORTING NOTE: This is only used for Web multi-tab.
*/
setDatabaseDeletedListener(databaseDeletedListener: () => Promise<void>): void;
/**
* Adjusts the current network state in the client's metadata, potentially
* affecting the primary lease.
*
* PORTING NOTE: This is only used for Web multi-tab.
*/
setNetworkEnabled(networkEnabled: boolean): void;
/**
* Returns a MutationQueue representing the persisted mutations for the
* given user.
*
* Note: The implementation is free to return the same instance every time
* this is called for a given user. In particular, the memory-backed
* implementation does this to emulate the persisted implementation to the
* extent possible (e.g. in the case of uid switching from
* sally=&gt;jack=&gt;sally, sally's mutation queue will be preserved).
*/
getMutationQueue(user: User, indexManager: IndexManager): MutationQueue;
/**
* Returns a TargetCache representing the persisted cache of targets.
*
* Note: The implementation is free to return the same instance every time
* this is called. In particular, the memory-backed implementation does this
* to emulate the persisted implementation to the extent possible.
*/
getTargetCache(): TargetCache;
/**
* Returns a RemoteDocumentCache representing the persisted cache of remote
* documents.
*
* Note: The implementation is free to return the same instance every time
* this is called. In particular, the memory-backed implementation does this
* to emulate the persisted implementation to the extent possible.
*/
getRemoteDocumentCache(): RemoteDocumentCache;
/**
* Returns a BundleCache representing the persisted cache of loaded bundles.
*
* Note: The implementation is free to return the same instance every time
* this is called. In particular, the memory-backed implementation does this
* to emulate the persisted implementation to the extent possible.
*/
getBundleCache(): BundleCache;
/**
* Returns an IndexManager instance that manages our persisted query indexes.
*
* Note: The implementation is free to return the same instance every time
* this is called. In particular, the memory-backed implementation does this
* to emulate the persisted implementation to the extent possible.
*/
getIndexManager(user: User): IndexManager;
/**
* Returns a DocumentOverlayCache representing the documents that are mutated
* locally.
*/
getDocumentOverlayCache(user: User): DocumentOverlayCache;
/**
* Performs an operation inside a persistence transaction. Any reads or writes
* against persistence must be performed within a transaction. Writes will be
* committed atomically once the transaction completes.
*
* Persistence operations are asynchronous and therefore the provided
* transactionOperation must return a PersistencePromise. When it is resolved,
* the transaction will be committed and the Promise returned by this method
* will resolve.
*
* @param action - A description of the action performed by this transaction,
* used for logging.
* @param mode - The underlying mode of the IndexedDb transaction. Can be
* 'readonly', 'readwrite' or 'readwrite-primary'. Transactions marked
* 'readwrite-primary' can only be executed by the primary client. In this
* mode, the transactionOperation will not be run if the primary lease cannot
* be acquired and the returned promise will be rejected with a
* FAILED_PRECONDITION error.
* @param transactionOperation - The operation to run inside a transaction.
* @returns A `Promise` that is resolved once the transaction completes.
*/
runTransaction<T>(action: string, mode: PersistenceTransactionMode, transactionOperation: (transaction: PersistenceTransaction) => PersistencePromise<T>): Promise<T>;
}
/**
* PersistencePromise is essentially a re-implementation of Promise except
* it has a .next() method instead of .then() and .next() and .catch() callbacks
* are executed synchronously when a PersistencePromise resolves rather than
* asynchronously (Promise implementations use setImmediate() or similar).
*
* This is necessary to interoperate with IndexedDB which will automatically
* commit transactions if control is returned to the event loop without
* synchronously initiating another operation on the transaction.
*
* NOTE: .then() and .catch() only allow a single consumer, unlike normal
* Promises.
*/
declare class PersistencePromise<T> {
private nextCallback;
private catchCallback;
private result;
private error;
private isDone;
private callbackAttached;
constructor(callback: (resolve: Resolver<T>, reject: Rejector) => void);
catch<R>(fn: (error: Error) => R | PersistencePromise<R>): PersistencePromise<R>;
next<R>(nextFn?: FulfilledHandler<T, R>, catchFn?: RejectedHandler<R>): PersistencePromise<R>;
toPromise(): Promise<T>;
private wrapUserFunction;
private wrapSuccess;
private wrapFailure;
static resolve(): PersistencePromise<void>;
static resolve<R>(result: R): PersistencePromise<R>;
static reject<R>(error: Error): PersistencePromise<R>;
static waitFor(all: {
forEach: (cb: (el: PersistencePromise<any>) => void) => void;
}): PersistencePromise<void>;
/**
* Given an array of predicate functions that asynchronously evaluate to a
* boolean, implements a short-circuiting `or` between the results. Predicates
* will be evaluated until one of them returns `true`, then stop. The final
* result will be whether any of them returned `true`.
*/
static or(predicates: Array<() => PersistencePromise<boolean>>): PersistencePromise<boolean>;
/**
* Given an iterable, call the given function on each element in the
* collection and wait for all of the resulting concurrent PersistencePromises
* to resolve.
*/
static forEach<R, S>(collection: {
forEach: (cb: (r: R, s: S) => void) => void;
}, f: ((r: R, s: S) => PersistencePromise<void>) | ((r: R) => PersistencePromise<void>)): PersistencePromise<void>;
static forEach<R>(collection: {
forEach: (cb: (r: R) => void) => void;
}, f: (r: R) => PersistencePromise<void>): PersistencePromise<void>;
/**
* Concurrently map all array elements through asynchronous function.
*/
static mapArray<T, U>(array: T[], f: (t: T) => PersistencePromise<U>): PersistencePromise<U[]>;
/**
* An alternative to recursive PersistencePromise calls, that avoids
* potential memory problems from unbounded chains of promises.
*
* The `action` will be called repeatedly while `condition` is true.
*/
static doWhile(condition: () => boolean, action: () => PersistencePromise<void>): PersistencePromise<void>;
}
/**
* A base class representing a persistence transaction, encapsulating both the
* transaction's sequence numbers as well as a list of onCommitted listeners.
*
* When you call Persistence.runTransaction(), it will create a transaction and
* pass it to your callback. You then pass it to any method that operates
* on persistence.
*/
declare abstract class PersistenceTransaction {
private readonly onCommittedListeners;
abstract readonly currentSequenceNumber: ListenSequenceNumber;
addOnCommittedListener(listener: () => void): void;
raiseOnCommittedEvent(): void;
}
/** The different modes supported by `Persistence.runTransaction()`. */
declare type PersistenceTransactionMode = 'readonly' | 'readwrite' | 'readwrite-primary';
/**
* Provides a persistent cache backed by IndexedDb to the SDK.
*
* To use, create an instance using the factory function {@link persistentLocalCache()}, then
* set the instance to `FirestoreSettings.cache` and call `initializeFirestore` using
* the settings object.
*/
declare type PersistentLocalCache = {
kind: 'persistent';
/**
* @internal
*/
_onlineComponentProvider: OnlineComponentProvider;
/**
* @internal
*/
_offlineComponentProvider: OfflineComponentProvider;
};
/**
* Encodes a precondition for a mutation. This follows the model that the
* backend accepts with the special case of an explicit "empty" precondition
* (meaning no precondition).
*/
declare class Precondition {
readonly updateTime?: SnapshotVersion | undefined;
readonly exists?: boolean | undefined;
private constructor();
/** Creates a new empty Precondition. */
static none(): Precondition;
/** Creates a new Precondition with an exists flag. */
static exists(exists: boolean): Precondition;
/** Creates a new Precondition based on a version a document exists at. */
static updateTime(version: SnapshotVersion): Precondition;
/** Returns whether this Precondition is empty. */
get isNone(): boolean;
isEqual(other: Precondition): boolean;
}
/**
* These types primarily exist to support the `UpdateData`,
* `WithFieldValue`, and `PartialWithFieldValue` types and are not consumed
* directly by the end developer.
*/
/** Primitive types. */
export declare type Primitive = string | number | boolean | undefined | null;
/**
* @internal
* Undocumented, private additional settings not exposed in our public API.
*/
declare interface PrivateSettings extends Settings {
credentials?: CredentialsSettings;
cacheSizeBytes?: number;
experimentalForceLongPolling?: boolean;
experimentalAutoDetectLongPolling?: boolean;
experimentalLongPollingOptions?: ExperimentalLongPollingOptions;
useFetchStreams?: boolean;
localCache?: FirestoreLocalCache;
}
declare interface ProviderCredentialsSettings {
['type']: 'provider';
['client']: CredentialsProvider<User>;
}
/**
* A `Query` refers to a query which you can read or listen to. You can also
* construct refined `Query` objects by adding filters and ordering.
*/
export declare class Query<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> {
/**
* If provided, the `FirestoreDataConverter` associated with this instance.
*/
readonly converter: FirestoreDataConverter<AppModelType, DbModelType> | null;
readonly _query: Query_2;
/** The type of this Firestore reference. */
readonly type: 'query' | 'collection';
/**
* The `Firestore` instance for the Firestore database (useful for performing
* transactions, etc.).
*/
readonly firestore: Firestore;
/** @hideconstructor protected */
constructor(firestore: Firestore,
/**
* If provided, the `FirestoreDataConverter` associated with this instance.
*/
converter: FirestoreDataConverter<AppModelType, DbModelType> | null, _query: Query_2);
/**
* Removes the current converter.
*
* @param converter - `null` removes the current converter.
* @returns A `Query<DocumentData, DocumentData>` that does not use a
* converter.
*/
withConverter(converter: null): Query<DocumentData, DocumentData>;
/**
* Applies a custom data converter to this query, allowing you to use your own
* custom model objects with Firestore. When you call {@link getDocs} with
* the returned query, the provided converter will convert between Firestore
* data of type `NewDbModelType` and your custom type `NewAppModelType`.
*
* @param converter - Converts objects to and from Firestore.
* @returns A `Query` that uses the provided converter.
*/
withConverter<NewAppModelType, NewDbModelType extends DocumentData = DocumentData>(converter: FirestoreDataConverter<NewAppModelType, NewDbModelType>): Query<NewAppModelType, NewDbModelType>;
}
/**
* Creates a new immutable instance of {@link Query} that is extended to also
* include additional query constraints.
*
* @param query - The {@link Query} instance to use as a base for the new
* constraints.
* @param compositeFilter - The {@link QueryCompositeFilterConstraint} to
* apply. Create {@link QueryCompositeFilterConstraint} using {@link and} or
* {@link or}.
* @param queryConstraints - Additional {@link QueryNonFilterConstraint}s to
* apply (e.g. {@link orderBy}, {@link limit}).
* @throws if any of the provided query constraints cannot be combined with the
* existing or new constraints.
*/
export declare function query<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>, compositeFilter: QueryCompositeFilterConstraint, ...queryConstraints: QueryNonFilterConstraint[]): Query<AppModelType, DbModelType>;
/**
* Creates a new immutable instance of {@link Query} that is extended to also
* include additional query constraints.
*
* @param query - The {@link Query} instance to use as a base for the new
* constraints.
* @param queryConstraints - The list of {@link QueryConstraint}s to apply.
* @throws if any of the provided query constraints cannot be combined with the
* existing or new constraints.
*/
export declare function query<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>, ...queryConstraints: QueryConstraint[]): Query<AppModelType, DbModelType>;
/**
* The Query interface defines all external properties of a query.
*
* QueryImpl implements this interface to provide memoization for `queryNormalizedOrderBy`
* and `queryToTarget`.
*/
declare interface Query_2 {
readonly path: ResourcePath;
readonly collectionGroup: string | null;
readonly explicitOrderBy: OrderBy[];
readonly filters: Filter[];
readonly limit: number | null;
readonly limitType: LimitType;
readonly startAt: Bound | null;
readonly endAt: Bound | null;
}
/**
* A `QueryCompositeFilterConstraint` is used to narrow the set of documents
* returned by a Firestore query by performing the logical OR or AND of multiple
* {@link QueryFieldFilterConstraint}s or {@link QueryCompositeFilterConstraint}s.
* `QueryCompositeFilterConstraint`s are created by invoking {@link or} or
* {@link and} and can then be passed to {@link (query:1)} to create a new query
* instance that also contains the `QueryCompositeFilterConstraint`.
*/
export declare class QueryCompositeFilterConstraint extends AppliableConstraint {
/** The type of this query constraint */
readonly type: 'or' | 'and';
private readonly _queryConstraints;
/**
* @internal
*/
protected constructor(
/** The type of this query constraint */
type: 'or' | 'and', _queryConstraints: QueryFilterConstraint[]);
static _create(type: 'or' | 'and', _queryConstraints: QueryFilterConstraint[]): QueryCompositeFilterConstraint;
_parse<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Filter;
_apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
_getQueryConstraints(): readonly AppliableConstraint[];
_getOperator(): CompositeOperator;
}
/**
* A `QueryConstraint` is used to narrow the set of documents returned by a
* Firestore query. `QueryConstraint`s are created by invoking {@link where},
* {@link orderBy}, {@link (startAt:1)}, {@link (startAfter:1)}, {@link
* (endBefore:1)}, {@link (endAt:1)}, {@link limit}, {@link limitToLast} and
* can then be passed to {@link (query:1)} to create a new query instance that
* also contains this `QueryConstraint`.
*/
export declare abstract class QueryConstraint extends AppliableConstraint {
/** The type of this query constraint */
abstract readonly type: QueryConstraintType;
/**
* Takes the provided {@link Query} and returns a copy of the {@link Query} with this
* {@link AppliableConstraint} applied.
*/
abstract _apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
}
/** Describes the different query constraints available in this SDK. */
export declare type QueryConstraintType = 'where' | 'orderBy' | 'limit' | 'limitToLast' | 'startAt' | 'startAfter' | 'endAt' | 'endBefore';
/**
* @license
* Copyright 2023 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* A tracker to keep a record of important details during database local query
* execution.
*/
declare class QueryContext {
/**
* Counts the number of documents passed through during local query execution.
*/
private _documentReadCount;
get documentReadCount(): number;
incrementDocumentReadCount(amount: number): void;
}
/**
* A `QueryDocumentSnapshot` contains data read from a document in your
* Firestore database as part of a query. The document is guaranteed to exist
* and its data can be extracted with `.data()` or `.get(<field>)` to get a
* specific field.
*
* A `QueryDocumentSnapshot` offers the same API surface as a
* `DocumentSnapshot`. Since query results contain only existing documents, the
* `exists` property will always be true and `data()` will never return
* 'undefined'.
*/
export declare class QueryDocumentSnapshot<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> extends DocumentSnapshot<AppModelType, DbModelType> {
/**
* Retrieves all fields in the document as an `Object`.
*
* @override
* @returns An `Object` containing all fields in the document.
*/
data(): AppModelType;
}
/**
* A `QueryEndAtConstraint` is used to exclude documents from the end of a
* result set returned by a Firestore query.
* `QueryEndAtConstraint`s are created by invoking {@link (endAt:1)} or
* {@link (endBefore:1)} and can then be passed to {@link (query:1)} to create a new
* query instance that also contains this `QueryEndAtConstraint`.
*/
export declare class QueryEndAtConstraint extends QueryConstraint {
/** The type of this query constraint */
readonly type: 'endBefore' | 'endAt';
private readonly _docOrFields;
private readonly _inclusive;
/**
* @internal
*/
protected constructor(
/** The type of this query constraint */
type: 'endBefore' | 'endAt', _docOrFields: Array<unknown | DocumentSnapshot<unknown>>, _inclusive: boolean);
static _create(type: 'endBefore' | 'endAt', _docOrFields: Array<unknown | DocumentSnapshot<unknown>>, _inclusive: boolean): QueryEndAtConstraint;
_apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
}
/**
* Returns true if the provided queries point to the same collection and apply
* the same constraints.
*
* @param left - A `Query` to compare.
* @param right - A `Query` to compare.
* @returns true if the references point to the same location in the same
* Firestore database.
*/
export declare function queryEqual<AppModelType, DbModelType extends DocumentData>(left: Query<AppModelType, DbModelType>, right: Query<AppModelType, DbModelType>): boolean;
/**
* A `QueryFieldFilterConstraint` is used to narrow the set of documents returned by
* a Firestore query by filtering on one or more document fields.
* `QueryFieldFilterConstraint`s are created by invoking {@link where} and can then
* be passed to {@link (query:1)} to create a new query instance that also contains
* this `QueryFieldFilterConstraint`.
*/
export declare class QueryFieldFilterConstraint extends QueryConstraint {
private readonly _field;
private _op;
private _value;
/** The type of this query constraint */
readonly type = "where";
/**
* @internal
*/
protected constructor(_field: FieldPath_2, _op: Operator, _value: unknown);
static _create(_field: FieldPath_2, _op: Operator, _value: unknown): QueryFieldFilterConstraint;
_apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
_parse<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): FieldFilter;
}
/**
* `QueryFilterConstraint` is a helper union type that represents
* {@link QueryFieldFilterConstraint} and {@link QueryCompositeFilterConstraint}.
*/
export declare type QueryFilterConstraint = QueryFieldFilterConstraint | QueryCompositeFilterConstraint;
/**
* A `QueryLimitConstraint` is used to limit the number of documents returned by
* a Firestore query.
* `QueryLimitConstraint`s are created by invoking {@link limit} or
* {@link limitToLast} and can then be passed to {@link (query:1)} to create a new
* query instance that also contains this `QueryLimitConstraint`.
*/
export declare class QueryLimitConstraint extends QueryConstraint {
/** The type of this query constraint */
readonly type: 'limit' | 'limitToLast';
private readonly _limit;
private readonly _limitType;
/**
* @internal
*/
protected constructor(
/** The type of this query constraint */
type: 'limit' | 'limitToLast', _limit: number, _limitType: LimitType);
static _create(type: 'limit' | 'limitToLast', _limit: number, _limitType: LimitType): QueryLimitConstraint;
_apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
}
/**
* `QueryNonFilterConstraint` is a helper union type that represents
* QueryConstraints which are used to narrow or order the set of documents,
* but that do not explicitly filter on a document field.
* `QueryNonFilterConstraint`s are created by invoking {@link orderBy},
* {@link (startAt:1)}, {@link (startAfter:1)}, {@link (endBefore:1)}, {@link (endAt:1)},
* {@link limit} or {@link limitToLast} and can then be passed to {@link (query:1)}
* to create a new query instance that also contains the `QueryConstraint`.
*/
export declare type QueryNonFilterConstraint = QueryOrderByConstraint | QueryLimitConstraint | QueryStartAtConstraint | QueryEndAtConstraint;
/**
* A `QueryOrderByConstraint` is used to sort the set of documents returned by a
* Firestore query. `QueryOrderByConstraint`s are created by invoking
* {@link orderBy} and can then be passed to {@link (query:1)} to create a new query
* instance that also contains this `QueryOrderByConstraint`.
*
* Note: Documents that do not contain the orderBy field will not be present in
* the query result.
*/
export declare class QueryOrderByConstraint extends QueryConstraint {
private readonly _field;
private _direction;
/** The type of this query constraint */
readonly type = "orderBy";
/**
* @internal
*/
protected constructor(_field: FieldPath_2, _direction: Direction);
static _create(_field: FieldPath_2, _direction: Direction): QueryOrderByConstraint;
_apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
}
/**
* A `QuerySnapshot` contains zero or more `DocumentSnapshot` objects
* representing the results of a query. The documents can be accessed as an
* array via the `docs` property or enumerated using the `forEach` method. The
* number of documents can be determined via the `empty` and `size`
* properties.
*/
export declare class QuerySnapshot<AppModelType = DocumentData, DbModelType extends DocumentData = DocumentData> {
readonly _docs: Array<QueryDocumentSnapshot<AppModelType, DbModelType>>;
/**
* The query on which you called {@link getDocs} in order to get this
* `QuerySnapshot`.
*/
readonly query: Query<AppModelType, DbModelType>;
/** @hideconstructor */
constructor(_query: Query<AppModelType, DbModelType>, _docs: Array<QueryDocumentSnapshot<AppModelType, DbModelType>>);
/** An array of all the documents in the `QuerySnapshot`. */
get docs(): Array<QueryDocumentSnapshot<AppModelType, DbModelType>>;
/** The number of documents in the `QuerySnapshot`. */
get size(): number;
/** True if there are no documents in the `QuerySnapshot`. */
get empty(): boolean;
/**
* Enumerates all of the documents in the `QuerySnapshot`.
*
* @param callback - A callback to be called with a `QueryDocumentSnapshot` for
* each document in the snapshot.
* @param thisArg - The `this` binding for the callback.
*/
forEach(callback: (result: QueryDocumentSnapshot<AppModelType, DbModelType>) => void, thisArg?: unknown): void;
}
/**
* A `QueryStartAtConstraint` is used to exclude documents from the start of a
* result set returned by a Firestore query.
* `QueryStartAtConstraint`s are created by invoking {@link (startAt:1)} or
* {@link (startAfter:1)} and can then be passed to {@link (query:1)} to create a
* new query instance that also contains this `QueryStartAtConstraint`.
*/
export declare class QueryStartAtConstraint extends QueryConstraint {
/** The type of this query constraint */
readonly type: 'startAt' | 'startAfter';
private readonly _docOrFields;
private readonly _inclusive;
/**
* @internal
*/
protected constructor(
/** The type of this query constraint */
type: 'startAt' | 'startAfter', _docOrFields: Array<unknown | DocumentSnapshot<unknown>>, _inclusive: boolean);
static _create(type: 'startAt' | 'startAfter', _docOrFields: Array<unknown | DocumentSnapshot<unknown>>, _inclusive: boolean): QueryStartAtConstraint;
_apply<AppModelType, DbModelType extends DocumentData>(query: Query<AppModelType, DbModelType>): Query<AppModelType, DbModelType>;
}
/** The different states of a watch target. */
declare type QueryTargetState = 'not-current' | 'current' | 'rejected';
/**
* Returns true if the provided references are equal.
*
* @param left - A reference to compare.
* @param right - A reference to compare.
* @returns true if the references point to the same location in the same
* Firestore database.
*/
export declare function refEqual<AppModelType, DbModelType extends DocumentData>(left: DocumentReference<AppModelType, DbModelType> | CollectionReference<AppModelType, DbModelType>, right: DocumentReference<AppModelType, DbModelType> | CollectionReference<AppModelType, DbModelType>): boolean;
/**
* A ReferenceDelegate instance handles all of the hooks into the document-reference lifecycle. This
* includes being added to a target, being removed from a target, being subject to mutation, and
* being mutated by the user.
*
* Different implementations may do different things with each of these events. Not every
* implementation needs to do something with every lifecycle hook.
*
* PORTING NOTE: since sequence numbers are attached to transactions in this
* client, the ReferenceDelegate does not need to deal in transactional
* semantics (onTransactionStarted/Committed()), nor does it need to track and
* generate sequence numbers (getCurrentSequenceNumber()).
*/
declare interface ReferenceDelegate {
/** Notify the delegate that the given document was added to a target. */
addReference(txn: PersistenceTransaction, targetId: TargetId, doc: DocumentKey): PersistencePromise<void>;
/** Notify the delegate that the given document was removed from a target. */
removeReference(txn: PersistenceTransaction, targetId: TargetId, doc: DocumentKey): PersistencePromise<void>;
/**
* Notify the delegate that a target was removed. The delegate may, but is not obligated to,
* actually delete the target and associated data.
*/
removeTarget(txn: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>;
/**
* Notify the delegate that a document may no longer be part of any views or
* have any mutations associated.
*/
markPotentiallyOrphaned(txn: PersistenceTransaction, doc: DocumentKey): PersistencePromise<void>;
/** Notify the delegate that a limbo document was updated. */
updateLimboDocument(txn: PersistenceTransaction, doc: DocumentKey): PersistencePromise<void>;
}
declare type RejectedHandler<R> = ((reason: Error) => R | PersistencePromise<R>) | null;
declare type Rejector = (error: Error) => void;
/**
* Represents cached documents received from the remote backend.
*
* The cache is keyed by DocumentKey and entries in the cache are
* MutableDocuments, meaning we can cache both actual documents as well as
* documents that are known to not exist.
*/
declare interface RemoteDocumentCache {
/** Sets the index manager to use for managing the collectionGroup index. */
setIndexManager(indexManager: IndexManager): void;
/**
* Looks up an entry in the cache.
*
* @param documentKey - The key of the entry to look up.*
* @returns The cached document entry. Returns an invalid document if the
* document is not cached.
*/
getEntry(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutableDocument>;
/**
* Looks up a set of entries in the cache.
*
* @param documentKeys - The keys of the entries to look up.
* @returns The cached document entries indexed by key. If an entry is not
* cached, the corresponding key will be mapped to an invalid document.
*/
getEntries(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<MutableDocumentMap>;
/**
* Returns the documents matching the given query
*
* @param query - The query to match documents against.
* @param offset - The offset to start the scan at (exclusive).
* @param context - A optional tracker to keep a record of important details
* during database local query execution.
* @returns The set of matching documents.
*/
getDocumentsMatchingQuery(transaction: PersistenceTransaction, query: Query_2, offset: IndexOffset, mutatedDocs: OverlayMap, context?: QueryContext): PersistencePromise<MutableDocumentMap>;
/**
* Looks up the next `limit` documents for a collection group based on the
* provided offset. The ordering is based on the document's read time and key.
*
* @param collectionGroup - The collection group to scan.
* @param offset - The offset to start the scan at (exclusive).
* @param limit - The maximum number of results to return.
* @returns The set of matching documents.
*/
getAllFromCollectionGroup(transaction: PersistenceTransaction, collectionGroup: string, offset: IndexOffset, limit: number): PersistencePromise<MutableDocumentMap>;
/**
* Provides access to add or update the contents of the cache. The buffer
* handles proper size accounting for the change.
*
* Multi-Tab Note: This should only be called by the primary client.
*
* @param options - Specify `trackRemovals` to create sentinel entries for
* removed documents, which allows removals to be tracked by
* `getNewDocumentChanges()`.
*/
newChangeBuffer(options?: {
trackRemovals: boolean;
}): RemoteDocumentChangeBuffer;
/**
* Get an estimate of the size of the document cache. Note that for eager
* garbage collection, we don't track sizes so this will return 0.
*/
getSize(transaction: PersistenceTransaction): PersistencePromise<number>;
}
/**
* An in-memory buffer of entries to be written to a RemoteDocumentCache.
* It can be used to batch up a set of changes to be written to the cache, but
* additionally supports reading entries back with the `getEntry()` method,
* falling back to the underlying RemoteDocumentCache if no entry is
* buffered.
*
* Entries added to the cache *must* be read first. This is to facilitate
* calculating the size delta of the pending changes.
*
* PORTING NOTE: This class was implemented then removed from other platforms.
* If byte-counting ends up being needed on the other platforms, consider
* porting this class as part of that implementation work.
*/
declare abstract class RemoteDocumentChangeBuffer {
protected changes: ObjectMap<DocumentKey, MutableDocument>;
private changesApplied;
protected abstract getFromCache(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutableDocument>;
protected abstract getAllFromCache(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<MutableDocumentMap>;
protected abstract applyChanges(transaction: PersistenceTransaction): PersistencePromise<void>;
/**
* Buffers a `RemoteDocumentCache.addEntry()` call.
*
* You can only modify documents that have already been retrieved via
* `getEntry()/getEntries()` (enforced via IndexedDbs `apply()`).
*/
addEntry(document: MutableDocument): void;
/**
* Buffers a `RemoteDocumentCache.removeEntry()` call.
*
* You can only remove documents that have already been retrieved via
* `getEntry()/getEntries()` (enforced via IndexedDbs `apply()`).
*/
removeEntry(key: DocumentKey, readTime: SnapshotVersion): void;
/**
* Looks up an entry in the cache. The buffered changes will first be checked,
* and if no buffered change applies, this will forward to
* `RemoteDocumentCache.getEntry()`.
*
* @param transaction - The transaction in which to perform any persistence
* operations.
* @param documentKey - The key of the entry to look up.
* @returns The cached document or an invalid document if we have nothing
* cached.
*/
getEntry(transaction: PersistenceTransaction, documentKey: DocumentKey): PersistencePromise<MutableDocument>;
/**
* Looks up several entries in the cache, forwarding to
* `RemoteDocumentCache.getEntry()`.
*
* @param transaction - The transaction in which to perform any persistence
* operations.
* @param documentKeys - The keys of the entries to look up.
* @returns A map of cached documents, indexed by key. If an entry cannot be
* found, the corresponding key will be mapped to an invalid document.
*/
getEntries(transaction: PersistenceTransaction, documentKeys: DocumentKeySet): PersistencePromise<MutableDocumentMap>;
/**
* Applies buffered changes to the underlying RemoteDocumentCache, using
* the provided transaction.
*/
apply(transaction: PersistenceTransaction): PersistencePromise<void>;
/** Helper to assert this.changes is not null */
protected assertNotApplied(): void;
}
/**
* An event from the RemoteStore. It is split into targetChanges (changes to the
* state or the set of documents in our watched targets) and documentUpdates
* (changes to the actual documents).
*/
declare class RemoteEvent {
/**
* The snapshot version this event brings us up to, or MIN if not set.
*/
readonly snapshotVersion: SnapshotVersion;
/**
* A map from target to changes to the target. See TargetChange.
*/
readonly targetChanges: Map<TargetId, TargetChange>;
/**
* A map of targets that is known to be inconsistent, and the purpose for
* re-listening. Listens for these targets should be re-established without
* resume tokens.
*/
readonly targetMismatches: SortedMap<TargetId, TargetPurpose>;
/**
* A set of which documents have changed or been deleted, along with the
* doc's new values (if not deleted).
*/
readonly documentUpdates: MutableDocumentMap;
/**
* A set of which document updates are due only to limbo resolution targets.
*/
readonly resolvedLimboDocuments: DocumentKeySet;
constructor(
/**
* The snapshot version this event brings us up to, or MIN if not set.
*/
snapshotVersion: SnapshotVersion,
/**
* A map from target to changes to the target. See TargetChange.
*/
targetChanges: Map<TargetId, TargetChange>,
/**
* A map of targets that is known to be inconsistent, and the purpose for
* re-listening. Listens for these targets should be re-established without
* resume tokens.
*/
targetMismatches: SortedMap<TargetId, TargetPurpose>,
/**
* A set of which documents have changed or been deleted, along with the
* doc's new values (if not deleted).
*/
documentUpdates: MutableDocumentMap,
/**
* A set of which document updates are due only to limbo resolution targets.
*/
resolvedLimboDocuments: DocumentKeySet);
/**
* HACK: Views require RemoteEvents in order to determine whether the view is
* CURRENT, but secondary tabs don't receive remote events. So this method is
* used to create a synthesized RemoteEvent that can be used to apply a
* CURRENT status change to a View, for queries executed in a different tab.
*/
static createSynthesizedRemoteEventForCurrentChange(targetId: TargetId, current: boolean, resumeToken: ByteString): RemoteEvent;
}
/**
* RemoteStore - An interface to remotely stored data, basically providing a
* wrapper around the Datastore that is more reliable for the rest of the
* system.
*
* RemoteStore is responsible for maintaining the connection to the server.
* - maintaining a list of active listens.
* - reconnecting when the connection is dropped.
* - resuming all the active listens on reconnect.
*
* RemoteStore handles all incoming events from the Datastore.
* - listening to the watch stream and repackaging the events as RemoteEvents
* - notifying SyncEngine of any changes to the active listens.
*
* RemoteStore takes writes from other components and handles them reliably.
* - pulling pending mutations from LocalStore and sending them to Datastore.
* - retrying mutations that failed because of network problems.
* - acking mutations to the SyncEngine once they are accepted or rejected.
*/
declare interface RemoteStore {
/**
* SyncEngine to notify of watch and write events. This must be set
* immediately after construction.
*/
remoteSyncer: RemoteSyncer;
}
/**
* An interface that describes the actions the RemoteStore needs to perform on
* a cooperating synchronization engine.
*/
declare interface RemoteSyncer {
/**
* Applies one remote event to the sync engine, notifying any views of the
* changes, and releasing any pending mutation batches that would become
* visible because of the snapshot version the remote event contains.
*/
applyRemoteEvent?(remoteEvent: RemoteEvent): Promise<void>;
/**
* Rejects the listen for the given targetID. This can be triggered by the
* backend for any active target.
*
* @param targetId - The targetID corresponds to one previously initiated by
* the user as part of TargetData passed to listen() on RemoteStore.
* @param error - A description of the condition that has forced the rejection.
* Nearly always this will be an indication that the user is no longer
* authorized to see the data matching the target.
*/
rejectListen?(targetId: TargetId, error: FirestoreError): Promise<void>;
/**
* Applies the result of a successful write of a mutation batch to the sync
* engine, emitting snapshots in any views that the mutation applies to, and
* removing the batch from the mutation queue.
*/
applySuccessfulWrite?(result: MutationBatchResult): Promise<void>;
/**
* Rejects the batch, removing the batch from the mutation queue, recomputing
* the local view of any documents affected by the batch and then, emitting
* snapshots with the reverted value.
*/
rejectFailedWrite?(batchId: BatchId, error: FirestoreError): Promise<void>;
/**
* Returns the set of remote document keys for the given target ID. This list
* includes the documents that were assigned to the target when we received
* the last snapshot.
*/
getRemoteKeysForTarget?(targetId: TargetId): DocumentKeySet;
/**
* Updates all local state to match the pending mutations for the given user.
* May be called repeatedly for the same user.
*/
handleCredentialChange?(user: User): Promise<void>;
}
declare type Resolver<T> = (value?: T) => void;
/**
* A slash-separated path for navigating resources (documents and collections)
* within Firestore.
*
* @internal
*/
declare class ResourcePath extends BasePath<ResourcePath> {
protected construct(segments: string[], offset?: number, length?: number): ResourcePath;
canonicalString(): string;
toString(): string;
/**
* Returns a string representation of this path
* where each path segment has been encoded with
* `encodeURIComponent`.
*/
toUriEncodedString(): string;
/**
* Creates a resource path from the given slash-delimited string. If multiple
* arguments are provided, all components are combined. Leading and trailing
* slashes from all components are ignored.
*/
static fromString(...pathComponents: string[]): ResourcePath;
static emptyPath(): ResourcePath;
}
/**
* Executes the given `updateFunction` and then attempts to commit the changes
* applied within the transaction. If any document read within the transaction
* has changed, Cloud Firestore retries the `updateFunction`. If it fails to
* commit after 5 attempts, the transaction fails.
*
* The maximum number of writes allowed in a single transaction is 500.
*
* @param firestore - A reference to the Firestore database to run this
* transaction against.
* @param updateFunction - The function to execute within the transaction
* context.
* @param options - An options object to configure maximum number of attempts to
* commit.
* @returns If the transaction completed successfully or was explicitly aborted
* (the `updateFunction` returned a failed promise), the promise returned by the
* `updateFunction `is returned here. Otherwise, if the transaction failed, a
* rejected promise with the corresponding failure error is returned.
*/
export declare function runTransaction<T>(firestore: Firestore, updateFunction: (transaction: Transaction) => Promise<T>, options?: TransactionOptions): Promise<T>;
/**
* Interface to schedule periodic tasks within SDK.
*/
declare interface Scheduler {
readonly started: boolean;
start(): void;
stop(): void;
}
/** Base interface for the Serializer implementation. */
declare interface Serializer {
readonly useProto3Json: boolean;
}
/**
* Returns a sentinel used with {@link @firebase/firestore/lite#(setDoc:1)} or {@link @firebase/firestore/lite#(updateDoc:1)} to
* include a server-generated timestamp in the written data.
*/
export declare function serverTimestamp(): FieldValue;
declare type ServerTimestampBehavior = 'estimate' | 'previous' | 'none';
/**
* Writes to the document referred to by the specified `DocumentReference`. If
* the document does not yet exist, it will be created.
*
* The result of this write will only be reflected in document reads that occur
* after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the document to write.
* @param data - A map of the fields and values for the document.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns A `Promise` resolved once the data has been successfully written
* to the backend.
*/
export declare function setDoc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>, data: WithFieldValue<AppModelType>): Promise<void>;
/**
* Writes to the document referred to by the specified `DocumentReference`. If
* the document does not yet exist, it will be created. If you provide `merge`
* or `mergeFields`, the provided data can be merged into an existing document.
*
* The result of this write will only be reflected in document reads that occur
* after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the document to write.
* @param data - A map of the fields and values for the document.
* @param options - An object to configure the set behavior.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns A `Promise` resolved once the data has been successfully written
* to the backend.
*/
export declare function setDoc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>, data: PartialWithFieldValue<AppModelType>, options: SetOptions): Promise<void>;
/**
* Sets the verbosity of Cloud Firestore logs (debug, error, or silent).
*
* @param logLevel - The verbosity you set for activity and error logging. Can
* be any of the following values:
*
* <ul>
* <li>`debug` for the most verbose logging level, primarily for
* debugging.</li>
* <li>`error` to log errors only.</li>
* <li><code>`silent` to turn off logging.</li>
* </ul>
*/
export declare function setLogLevel(logLevel: LogLevel): void;
/**
* An options object that configures the behavior of {@link @firebase/firestore/lite#(setDoc:1)}, {@link
* @firebase/firestore/lite#(WriteBatch.set:1)} and {@link @firebase/firestore/lite#(Transaction.set:1)} calls. These calls can be
* configured to perform granular merges instead of overwriting the target
* documents in their entirety by providing a `SetOptions` with `merge: true`.
*
* @param merge - Changes the behavior of a `setDoc()` call to only replace the
* values specified in its data argument. Fields omitted from the `setDoc()`
* call remain untouched. If your input sets any field to an empty map, all
* nested fields are overwritten.
* @param mergeFields - Changes the behavior of `setDoc()` calls to only replace
* the specified field paths. Any field path that is not specified is ignored
* and remains untouched. If your input sets any field to an empty map, all
* nested fields are overwritten.
*/
export declare type SetOptions = {
readonly merge?: boolean;
} | {
readonly mergeFields?: Array<string | FieldPath>;
};
/**
* Specifies custom configurations for your Cloud Firestore instance.
* You must set these before invoking any other methods.
*/
export declare interface Settings {
/** The hostname to connect to. */
host?: string;
/** Whether to use SSL when connecting. */
ssl?: boolean;
/**
* Whether to skip nested properties that are set to `undefined` during
* object serialization. If set to `true`, these properties are skipped
* and not written to Firestore. If set to `false` or omitted, the SDK
* throws an exception when it encounters properties of type `undefined`.
*/
ignoreUndefinedProperties?: boolean;
}
/**
* A `SharedClientState` keeps track of the global state of the mutations
* and query targets for all active clients with the same persistence key (i.e.
* project ID and FirebaseApp name). It relays local changes to other clients
* and updates its local state as new state is observed.
*
* `SharedClientState` is primarily used for synchronization in Multi-Tab
* environments. Each tab is responsible for registering its active query
* targets and mutations. `SharedClientState` will then notify the listener
* assigned to `.syncEngine` for updates to mutations and queries that
* originated in other clients.
*
* To receive notifications, `.syncEngine` and `.onlineStateHandler` has to be
* assigned before calling `start()`.
*/
declare interface SharedClientState {
onlineStateHandler: ((onlineState: OnlineState) => void) | null;
sequenceNumberHandler: ((sequenceNumber: ListenSequenceNumber) => void) | null;
/** Registers the Mutation Batch ID of a newly pending mutation. */
addPendingMutation(batchId: BatchId): void;
/**
* Records that a pending mutation has been acknowledged or rejected.
* Called by the primary client to notify secondary clients of mutation
* results as they come back from the backend.
*/
updateMutationState(batchId: BatchId, state: 'acknowledged' | 'rejected', error?: FirestoreError): void;
/**
* Associates a new Query Target ID with the local Firestore client. Returns
* the new query state for the query (which can be 'current' if the query is
* already associated with another tab).
*
* If the target id is already associated with local client, the method simply
* returns its `QueryTargetState`.
*/
addLocalQueryTarget(targetId: TargetId): QueryTargetState;
/** Removes the Query Target ID association from the local client. */
removeLocalQueryTarget(targetId: TargetId): void;
/** Checks whether the target is associated with the local client. */
isLocalQueryTarget(targetId: TargetId): boolean;
/**
* Processes an update to a query target.
*
* Called by the primary client to notify secondary clients of document
* changes or state transitions that affect the provided query target.
*/
updateQueryState(targetId: TargetId, state: QueryTargetState, error?: FirestoreError): void;
/**
* Removes the target's metadata entry.
*
* Called by the primary client when all clients stopped listening to a query
* target.
*/
clearQueryState(targetId: TargetId): void;
/**
* Gets the active Query Targets IDs for all active clients.
*
* The implementation for this may require O(n) runtime, where 'n' is the size
* of the result set.
*/
getAllActiveQueryTargets(): SortedSet<TargetId>;
/**
* Checks whether the provided target ID is currently being listened to by
* any of the active clients.
*
* The implementation may require O(n*log m) runtime, where 'n' is the number
* of clients and 'm' the number of targets.
*/
isActiveQueryTarget(targetId: TargetId): boolean;
/**
* Starts the SharedClientState, reads existing client data and registers
* listeners for updates to new and existing clients.
*/
start(): Promise<void>;
/** Shuts down the `SharedClientState` and its listeners. */
shutdown(): void;
/**
* Changes the active user and removes all existing user-specific data. The
* user change does not call back into SyncEngine (for example, no mutations
* will be marked as removed).
*/
handleUserChange(user: User, removedBatchIds: BatchId[], addedBatchIds: BatchId[]): void;
/** Changes the shared online state of all clients. */
setOnlineState(onlineState: OnlineState): void;
writeSequenceNumber(sequenceNumber: ListenSequenceNumber): void;
/**
* Notifies other clients when remote documents have changed due to loading
* a bundle.
*
* @param collectionGroups The collection groups affected by this bundle.
*/
notifyBundleLoaded(collectionGroups: Set<string>): void;
}
/**
* Returns true if the provided snapshots are equal.
*
* @param left - A snapshot to compare.
* @param right - A snapshot to compare.
* @returns true if the snapshots are equal.
*/
export declare function snapshotEqual<AppModelType, DbModelType extends DocumentData>(left: DocumentSnapshot<AppModelType, DbModelType> | QuerySnapshot<AppModelType, DbModelType>, right: DocumentSnapshot<AppModelType, DbModelType> | QuerySnapshot<AppModelType, DbModelType>): boolean;
/**
* A version of a document in Firestore. This corresponds to the version
* timestamp, such as update_time or read_time.
*/
declare class SnapshotVersion {
private timestamp;
static fromTimestamp(value: Timestamp): SnapshotVersion;
static min(): SnapshotVersion;
static max(): SnapshotVersion;
private constructor();
compareTo(other: SnapshotVersion): number;
isEqual(other: SnapshotVersion): boolean;
/** Returns a number representation of the version for use in spec tests. */
toMicroseconds(): number;
toString(): string;
toTimestamp(): Timestamp;
}
declare class SortedMap<K, V> {
comparator: Comparator<K>;
root: LLRBNode<K, V> | LLRBEmptyNode<K, V>;
constructor(comparator: Comparator<K>, root?: LLRBNode<K, V> | LLRBEmptyNode<K, V>);
insert(key: K, value: V): SortedMap<K, V>;
remove(key: K): SortedMap<K, V>;
get(key: K): V | null;
indexOf(key: K): number;
isEmpty(): boolean;
get size(): number;
minKey(): K | null;
maxKey(): K | null;
inorderTraversal<T>(action: (k: K, v: V) => T): T;
forEach(fn: (k: K, v: V) => void): void;
toString(): string;
reverseTraversal<T>(action: (k: K, v: V) => T): T;
getIterator(): SortedMapIterator<K, V>;
getIteratorFrom(key: K): SortedMapIterator<K, V>;
getReverseIterator(): SortedMapIterator<K, V>;
getReverseIteratorFrom(key: K): SortedMapIterator<K, V>;
}
declare class SortedMapIterator<K, V> {
private isReverse;
private nodeStack;
constructor(node: LLRBNode<K, V> | LLRBEmptyNode<K, V>, startKey: K | null, comparator: Comparator<K>, isReverse: boolean);
getNext(): Entry<K, V>;
hasNext(): boolean;
peek(): Entry<K, V> | null;
}
/**
* SortedSet is an immutable (copy-on-write) collection that holds elements
* in order specified by the provided comparator.
*
* NOTE: if provided comparator returns 0 for two elements, we consider them to
* be equal!
*/
declare class SortedSet<T> {
private comparator;
private data;
constructor(comparator: (left: T, right: T) => number);
has(elem: T): boolean;
first(): T | null;
last(): T | null;
get size(): number;
indexOf(elem: T): number;
/** Iterates elements in order defined by "comparator" */
forEach(cb: (elem: T) => void): void;
/** Iterates over `elem`s such that: range[0] &lt;= elem &lt; range[1]. */
forEachInRange(range: [T, T], cb: (elem: T) => void): void;
/**
* Iterates over `elem`s such that: start &lt;= elem until false is returned.
*/
forEachWhile(cb: (elem: T) => boolean, start?: T): void;
/** Finds the least element greater than or equal to `elem`. */
firstAfterOrEqual(elem: T): T | null;
getIterator(): SortedSetIterator<T>;
getIteratorFrom(key: T): SortedSetIterator<T>;
/** Inserts or updates an element */
add(elem: T): SortedSet<T>;
/** Deletes an element */
delete(elem: T): SortedSet<T>;
isEmpty(): boolean;
unionWith(other: SortedSet<T>): SortedSet<T>;
isEqual(other: SortedSet<T>): boolean;
toArray(): T[];
toString(): string;
private copy;
}
declare class SortedSetIterator<T> {
private iter;
constructor(iter: SortedMapIterator<T, boolean>);
getNext(): T;
hasNext(): boolean;
}
/**
* Creates a {@link QueryStartAtConstraint} that modifies the result set to
* start after the provided document (exclusive). The starting position is
* relative to the order of the query. The document must contain all of the
* fields provided in the orderBy of the query.
*
* @param snapshot - The snapshot of the document to start after.
* @returns A {@link QueryStartAtConstraint} to pass to `query()`
*/
export declare function startAfter<AppModelType, DbModelType extends DocumentData>(snapshot: DocumentSnapshot<AppModelType, DbModelType>): QueryStartAtConstraint;
/**
* Creates a {@link QueryStartAtConstraint} that modifies the result set to
* start after the provided fields relative to the order of the query. The order
* of the field values must match the order of the order by clauses of the query.
*
* @param fieldValues - The field values to start this query after, in order
* of the query's order by.
* @returns A {@link QueryStartAtConstraint} to pass to `query()`
*/
export declare function startAfter(...fieldValues: unknown[]): QueryStartAtConstraint;
/**
* Creates a {@link QueryStartAtConstraint} that modifies the result set to
* start at the provided document (inclusive). The starting position is relative
* to the order of the query. The document must contain all of the fields
* provided in the `orderBy` of this query.
*
* @param snapshot - The snapshot of the document to start at.
* @returns A {@link QueryStartAtConstraint} to pass to `query()`.
*/
export declare function startAt<AppModelType, DbModelType extends DocumentData>(snapshot: DocumentSnapshot<AppModelType, DbModelType>): QueryStartAtConstraint;
/**
* Creates a {@link QueryStartAtConstraint} that modifies the result set to
* start at the provided fields relative to the order of the query. The order of
* the field values must match the order of the order by clauses of the query.
*
* @param fieldValues - The field values to start this query at, in order
* of the query's order by.
* @returns A {@link QueryStartAtConstraint} to pass to `query()`.
*/
export declare function startAt(...fieldValues: unknown[]): QueryStartAtConstraint;
declare type StructuredQuery = firestoreV1ApiClientInterfaces.StructuredQuery;
/**
* Create an AggregateField object that can be used to compute the sum of
* a specified field over a range of documents in the result set of a query.
* @param field Specifies the field to sum across the result set.
*/
export declare function sum(field: string | FieldPath): AggregateField<number>;
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* SyncEngine is the central controller in the client SDK architecture. It is
* the glue code between the EventManager, LocalStore, and RemoteStore. Some of
* SyncEngine's responsibilities include:
* 1. Coordinating client requests and remote events between the EventManager
* and the local and remote data stores.
* 2. Managing a View object for each query, providing the unified view between
* the local and remote data stores.
* 3. Notifying the RemoteStore when the LocalStore has new mutations in its
* queue that need sending to the backend.
*
* The SyncEngines methods should only ever be called by methods running in the
* global async queue.
*
* PORTING NOTE: On Web, SyncEngine does not have an explicit subscribe()
* function. Instead, it directly depends on EventManager's tree-shakeable API
* (via `ensureWatchStream()`).
*/
declare interface SyncEngine {
isPrimaryClient: boolean;
}
/**
* A Target represents the WatchTarget representation of a Query, which is used
* by the LocalStore and the RemoteStore to keep track of and to execute
* backend queries. While a Query can represent multiple Targets, each Targets
* maps to a single WatchTarget in RemoteStore and a single TargetData entry
* in persistence.
*/
declare interface Target {
readonly path: ResourcePath;
readonly collectionGroup: string | null;
readonly orderBy: OrderBy[];
readonly filters: Filter[];
readonly limit: number | null;
readonly startAt: Bound | null;
readonly endAt: Bound | null;
}
/**
* Represents cached targets received from the remote backend.
*
* The cache is keyed by `Target` and entries in the cache are `TargetData`
* instances.
*/
declare interface TargetCache {
/**
* A global snapshot version representing the last consistent snapshot we
* received from the backend. This is monotonically increasing and any
* snapshots received from the backend prior to this version (e.g. for targets
* resumed with a resume_token) should be suppressed (buffered) until the
* backend has caught up to this snapshot version again. This prevents our
* cache from ever going backwards in time.
*
* This is updated whenever our we get a TargetChange with a read_time and
* empty target_ids.
*/
getLastRemoteSnapshotVersion(transaction: PersistenceTransaction): PersistencePromise<SnapshotVersion>;
/**
* @returns The highest sequence number observed, including any that might be
* persisted on-disk.
*/
getHighestSequenceNumber(transaction: PersistenceTransaction): PersistencePromise<ListenSequenceNumber>;
/**
* Call provided function with each `TargetData` that we have cached.
*/
forEachTarget(txn: PersistenceTransaction, f: (q: TargetData) => void): PersistencePromise<void>;
/**
* Set the highest listen sequence number and optionally updates the
* snapshot version of the last consistent snapshot received from the backend
* (see getLastRemoteSnapshotVersion() for more details).
*
* @param highestListenSequenceNumber - The new maximum listen sequence number.
* @param lastRemoteSnapshotVersion - The new snapshot version. Optional.
*/
setTargetsMetadata(transaction: PersistenceTransaction, highestListenSequenceNumber: number, lastRemoteSnapshotVersion?: SnapshotVersion): PersistencePromise<void>;
/**
* Adds an entry in the cache.
*
* The cache key is extracted from `targetData.target`. The key must not already
* exist in the cache.
*
* @param targetData - A TargetData instance to put in the cache.
*/
addTargetData(transaction: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>;
/**
* Updates an entry in the cache.
*
* The cache key is extracted from `targetData.target`. The entry must already
* exist in the cache, and it will be replaced.
* @param targetData - The TargetData to be replaced into the cache.
*/
updateTargetData(transaction: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>;
/**
* Removes the cached entry for the given target data. It is an error to remove
* a target data that does not exist.
*
* Multi-Tab Note: This operation should only be called by the primary client.
*/
removeTargetData(transaction: PersistenceTransaction, targetData: TargetData): PersistencePromise<void>;
/**
* The number of targets currently in the cache.
*/
getTargetCount(transaction: PersistenceTransaction): PersistencePromise<number>;
/**
* Looks up a TargetData entry by target.
*
* @param target - The query target corresponding to the entry to look up.
* @returns The cached TargetData entry, or null if the cache has no entry for
* the target.
*/
getTargetData(transaction: PersistenceTransaction, target: Target): PersistencePromise<TargetData | null>;
/**
* Adds the given document keys to cached query results of the given target
* ID.
*
* Multi-Tab Note: This operation should only be called by the primary client.
*/
addMatchingKeys(transaction: PersistenceTransaction, keys: DocumentKeySet, targetId: TargetId): PersistencePromise<void>;
/**
* Removes the given document keys from the cached query results of the
* given target ID.
*
* Multi-Tab Note: This operation should only be called by the primary client.
*/
removeMatchingKeys(transaction: PersistenceTransaction, keys: DocumentKeySet, targetId: TargetId): PersistencePromise<void>;
/**
* Removes all the keys in the query results of the given target ID.
*
* Multi-Tab Note: This operation should only be called by the primary client.
*/
removeMatchingKeysForTargetId(transaction: PersistenceTransaction, targetId: TargetId): PersistencePromise<void>;
/**
* Returns the document keys that match the provided target ID.
*/
getMatchingKeysForTargetId(transaction: PersistenceTransaction, targetId: TargetId): PersistencePromise<DocumentKeySet>;
/**
* Returns a new target ID that is higher than any query in the cache. If
* there are no queries in the cache, returns the first valid target ID.
* Allocated target IDs are persisted and `allocateTargetId()` will never
* return the same ID twice.
*/
allocateTargetId(transaction: PersistenceTransaction): PersistencePromise<TargetId>;
containsKey(transaction: PersistenceTransaction, key: DocumentKey): PersistencePromise<boolean>;
}
/**
* A TargetChange specifies the set of changes for a specific target as part of
* a RemoteEvent. These changes track which documents are added, modified or
* removed, as well as the target's resume token and whether the target is
* marked CURRENT.
* The actual changes *to* documents are not part of the TargetChange since
* documents may be part of multiple targets.
*/
declare class TargetChange {
/**
* An opaque, server-assigned token that allows watching a query to be resumed
* after disconnecting without retransmitting all the data that matches the
* query. The resume token essentially identifies a point in time from which
* the server should resume sending results.
*/
readonly resumeToken: ByteString;
/**
* The "current" (synced) status of this target. Note that "current"
* has special meaning in the RPC protocol that implies that a target is
* both up-to-date and consistent with the rest of the watch stream.
*/
readonly current: boolean;
/**
* The set of documents that were newly assigned to this target as part of
* this remote event.
*/
readonly addedDocuments: DocumentKeySet;
/**
* The set of documents that were already assigned to this target but received
* an update during this remote event.
*/
readonly modifiedDocuments: DocumentKeySet;
/**
* The set of documents that were removed from this target as part of this
* remote event.
*/
readonly removedDocuments: DocumentKeySet;
constructor(
/**
* An opaque, server-assigned token that allows watching a query to be resumed
* after disconnecting without retransmitting all the data that matches the
* query. The resume token essentially identifies a point in time from which
* the server should resume sending results.
*/
resumeToken: ByteString,
/**
* The "current" (synced) status of this target. Note that "current"
* has special meaning in the RPC protocol that implies that a target is
* both up-to-date and consistent with the rest of the watch stream.
*/
current: boolean,
/**
* The set of documents that were newly assigned to this target as part of
* this remote event.
*/
addedDocuments: DocumentKeySet,
/**
* The set of documents that were already assigned to this target but received
* an update during this remote event.
*/
modifiedDocuments: DocumentKeySet,
/**
* The set of documents that were removed from this target as part of this
* remote event.
*/
removedDocuments: DocumentKeySet);
/**
* This method is used to create a synthesized TargetChanges that can be used to
* apply a CURRENT status change to a View (for queries executed in a different
* tab) or for new queries (to raise snapshots with correct CURRENT status).
*/
static createSynthesizedTargetChangeForCurrentChange(targetId: TargetId, current: boolean, resumeToken: ByteString): TargetChange;
}
declare type TargetChangeTargetChangeType = 'NO_CHANGE' | 'ADD' | 'REMOVE' | 'CURRENT' | 'RESET';
/**
* An immutable set of metadata that the local store tracks for each target.
*/
declare class TargetData {
/** The target being listened to. */
readonly target: Target;
/**
* The target ID to which the target corresponds; Assigned by the
* LocalStore for user listens and by the SyncEngine for limbo watches.
*/
readonly targetId: TargetId;
/** The purpose of the target. */
readonly purpose: TargetPurpose;
/**
* The sequence number of the last transaction during which this target data
* was modified.
*/
readonly sequenceNumber: ListenSequenceNumber;
/** The latest snapshot version seen for this target. */
readonly snapshotVersion: SnapshotVersion;
/**
* The maximum snapshot version at which the associated view
* contained no limbo documents.
*/
readonly lastLimboFreeSnapshotVersion: SnapshotVersion;
/**
* An opaque, server-assigned token that allows watching a target to be
* resumed after disconnecting without retransmitting all the data that
* matches the target. The resume token essentially identifies a point in
* time from which the server should resume sending results.
*/
readonly resumeToken: ByteString;
/**
* The number of documents that last matched the query at the resume token or
* read time. Documents are counted only when making a listen request with
* resume token or read time, otherwise, keep it null.
*/
readonly expectedCount: number | null;
constructor(
/** The target being listened to. */
target: Target,
/**
* The target ID to which the target corresponds; Assigned by the
* LocalStore for user listens and by the SyncEngine for limbo watches.
*/
targetId: TargetId,
/** The purpose of the target. */
purpose: TargetPurpose,
/**
* The sequence number of the last transaction during which this target data
* was modified.
*/
sequenceNumber: ListenSequenceNumber,
/** The latest snapshot version seen for this target. */
snapshotVersion?: SnapshotVersion,
/**
* The maximum snapshot version at which the associated view
* contained no limbo documents.
*/
lastLimboFreeSnapshotVersion?: SnapshotVersion,
/**
* An opaque, server-assigned token that allows watching a target to be
* resumed after disconnecting without retransmitting all the data that
* matches the target. The resume token essentially identifies a point in
* time from which the server should resume sending results.
*/
resumeToken?: ByteString,
/**
* The number of documents that last matched the query at the resume token or
* read time. Documents are counted only when making a listen request with
* resume token or read time, otherwise, keep it null.
*/
expectedCount?: number | null);
/** Creates a new target data instance with an updated sequence number. */
withSequenceNumber(sequenceNumber: number): TargetData;
/**
* Creates a new target data instance with an updated resume token and
* snapshot version.
*/
withResumeToken(resumeToken: ByteString, snapshotVersion: SnapshotVersion): TargetData;
/**
* Creates a new target data instance with an updated expected count.
*/
withExpectedCount(expectedCount: number): TargetData;
/**
* Creates a new target data instance with an updated last limbo free
* snapshot version number.
*/
withLastLimboFreeSnapshotVersion(lastLimboFreeSnapshotVersion: SnapshotVersion): TargetData;
}
/**
* A locally-assigned ID used to refer to a target being watched via the
* Watch service.
*/
declare type TargetId = number;
/** An enumeration of the different purposes we have for targets. */
declare const enum TargetPurpose {
/** A regular, normal query target. */
Listen = "TargetPurposeListen",
/**
* The query target was used to refill a query after an existence filter
* mismatch.
*/
ExistenceFilterMismatch = "TargetPurposeExistenceFilterMismatch",
/**
* The query target was used if the query is the result of a false positive in
* the bloom filter.
*/
ExistenceFilterMismatchBloom = "TargetPurposeExistenceFilterMismatchBloom",
/** The query target was used to resolve a limbo document. */
LimboResolution = "TargetPurposeLimboResolution"
}
/**
* Terminates the provided `Firestore` instance.
*
* After calling `terminate()` only the `clearIndexedDbPersistence()` functions
* may be used. Any other function will throw a `FirestoreError`. Termination
* does not cancel any pending writes, and any promises that are awaiting a
* response from the server will not be resolved.
*
* To restart after termination, create a new instance of `Firestore` with
* {@link (getFirestore:1)}.
*
* Note: Under normal circumstances, calling `terminate()` is not required. This
* function is useful only when you want to force this instance to release all of
* its resources or in combination with {@link clearIndexedDbPersistence} to
* ensure that all local state is destroyed between test runs.
*
* @param firestore - The `Firestore` instance to terminate.
* @returns A `Promise` that is resolved when the instance has been successfully
* terminated.
*/
export declare function terminate(firestore: Firestore): Promise<void>;
/**
* Wellknown "timer" IDs used when scheduling delayed operations on the
* AsyncQueue. These IDs can then be used from tests to check for the presence
* of operations or to run them early.
*
* The string values are used when encoding these timer IDs in JSON spec tests.
*/
declare const enum TimerId {
/** All can be used with runDelayedOperationsEarly() to run all timers. */
All = "all",
/**
* The following 5 timers are used in persistent_stream.ts for the listen and
* write streams. The "Idle" timer is used to close the stream due to
* inactivity. The "ConnectionBackoff" timer is used to restart a stream once
* the appropriate backoff delay has elapsed. The health check is used to mark
* a stream healthy if it has not received an error during its initial setup.
*/
ListenStreamIdle = "listen_stream_idle",
ListenStreamConnectionBackoff = "listen_stream_connection_backoff",
WriteStreamIdle = "write_stream_idle",
WriteStreamConnectionBackoff = "write_stream_connection_backoff",
HealthCheckTimeout = "health_check_timeout",
/**
* A timer used in online_state_tracker.ts to transition from
* OnlineState.Unknown to Offline after a set timeout, rather than waiting
* indefinitely for success or failure.
*/
OnlineStateTimeout = "online_state_timeout",
/**
* A timer used to update the client metadata in IndexedDb, which is used
* to determine the primary leaseholder.
*/
ClientMetadataRefresh = "client_metadata_refresh",
/** A timer used to periodically attempt LRU Garbage collection */
LruGarbageCollection = "lru_garbage_collection",
/**
* A timer used to retry transactions. Since there can be multiple concurrent
* transactions, multiple of these may be in the queue at a given time.
*/
TransactionRetry = "transaction_retry",
/**
* A timer used to retry operations scheduled via retryable AsyncQueue
* operations.
*/
AsyncQueueRetry = "async_queue_retry",
/**
* A timer used to periodically attempt index backfill.
*/
IndexBackfill = "index_backfill"
}
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* A `Timestamp` represents a point in time independent of any time zone or
* calendar, represented as seconds and fractions of seconds at nanosecond
* resolution in UTC Epoch time.
*
* It is encoded using the Proleptic Gregorian Calendar which extends the
* Gregorian calendar backwards to year one. It is encoded assuming all minutes
* are 60 seconds long, i.e. leap seconds are "smeared" so that no leap second
* table is needed for interpretation. Range is from 0001-01-01T00:00:00Z to
* 9999-12-31T23:59:59.999999999Z.
*
* For examples and further specifications, refer to the
* {@link https://github.com/google/protobuf/blob/master/src/google/protobuf/timestamp.proto | Timestamp definition}.
*/
export declare class Timestamp {
/**
* The number of seconds of UTC time since Unix epoch 1970-01-01T00:00:00Z.
*/
readonly seconds: number;
/**
* The fractions of a second at nanosecond resolution.*
*/
readonly nanoseconds: number;
/**
* Creates a new timestamp with the current date, with millisecond precision.
*
* @returns a new timestamp representing the current date.
*/
static now(): Timestamp;
/**
* Creates a new timestamp from the given date.
*
* @param date - The date to initialize the `Timestamp` from.
* @returns A new `Timestamp` representing the same point in time as the given
* date.
*/
static fromDate(date: Date): Timestamp;
/**
* Creates a new timestamp from the given number of milliseconds.
*
* @param milliseconds - Number of milliseconds since Unix epoch
* 1970-01-01T00:00:00Z.
* @returns A new `Timestamp` representing the same point in time as the given
* number of milliseconds.
*/
static fromMillis(milliseconds: number): Timestamp;
/**
* Creates a new timestamp.
*
* @param seconds - The number of seconds of UTC time since Unix epoch
* 1970-01-01T00:00:00Z. Must be from 0001-01-01T00:00:00Z to
* 9999-12-31T23:59:59Z inclusive.
* @param nanoseconds - The non-negative fractions of a second at nanosecond
* resolution. Negative second values with fractions must still have
* non-negative nanoseconds values that count forward in time. Must be
* from 0 to 999,999,999 inclusive.
*/
constructor(
/**
* The number of seconds of UTC time since Unix epoch 1970-01-01T00:00:00Z.
*/
seconds: number,
/**
* The fractions of a second at nanosecond resolution.*
*/
nanoseconds: number);
/**
* Converts a `Timestamp` to a JavaScript `Date` object. This conversion
* causes a loss of precision since `Date` objects only support millisecond
* precision.
*
* @returns JavaScript `Date` object representing the same point in time as
* this `Timestamp`, with millisecond precision.
*/
toDate(): Date;
/**
* Converts a `Timestamp` to a numeric timestamp (in milliseconds since
* epoch). This operation causes a loss of precision.
*
* @returns The point in time corresponding to this timestamp, represented as
* the number of milliseconds since Unix epoch 1970-01-01T00:00:00Z.
*/
toMillis(): number;
_compareTo(other: Timestamp): number;
/**
* Returns true if this `Timestamp` is equal to the provided one.
*
* @param other - The `Timestamp` to compare against.
* @returns true if this `Timestamp` is equal to the provided one.
*/
isEqual(other: Timestamp): boolean;
/** Returns a textual representation of this `Timestamp`. */
toString(): string;
/** Returns a JSON-serializable representation of this `Timestamp`. */
toJSON(): {
seconds: number;
nanoseconds: number;
};
/**
* Converts this object to a primitive string, which allows `Timestamp` objects
* to be compared using the `>`, `<=`, `>=` and `>` operators.
*/
valueOf(): string;
}
declare type Timestamp_2 = string | {
seconds?: string | number;
nanos?: number;
};
declare interface Token {
/** Type of token. */
type: TokenType;
/**
* The user with which the token is associated (used for persisting user
* state on disk, etc.).
* This will be null for Tokens of the type 'AppCheck'.
*/
user?: User;
/** Header values to set for this token */
headers: Map<string, string>;
}
declare type TokenType = 'OAuth' | 'FirstParty' | 'AppCheck';
/**
* A reference to a transaction.
*
* The `Transaction` object passed to a transaction's `updateFunction` provides
* the methods to read and write data within the transaction context. See
* {@link runTransaction}.
*/
export declare class Transaction {
protected readonly _firestore: Firestore;
private readonly _transaction;
private readonly _dataReader;
/** @hideconstructor */
constructor(_firestore: Firestore, _transaction: Transaction_2);
/**
* Reads the document referenced by the provided {@link DocumentReference}.
*
* @param documentRef - A reference to the document to be read.
* @returns A `DocumentSnapshot` with the read data.
*/
get<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>): Promise<DocumentSnapshot<AppModelType, DbModelType>>;
/**
* Writes to the document referred to by the provided {@link
* DocumentReference}. If the document does not exist yet, it will be created.
*
* @param documentRef - A reference to the document to be set.
* @param data - An object of the fields and values for the document.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns This `Transaction` instance. Used for chaining method calls.
*/
set<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, data: WithFieldValue<AppModelType>): this;
/**
* Writes to the document referred to by the provided {@link
* DocumentReference}. If the document does not exist yet, it will be created.
* If you provide `merge` or `mergeFields`, the provided data can be merged
* into an existing document.
*
* @param documentRef - A reference to the document to be set.
* @param data - An object of the fields and values for the document.
* @param options - An object to configure the set behavior.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns This `Transaction` instance. Used for chaining method calls.
*/
set<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, data: PartialWithFieldValue<AppModelType>, options: SetOptions): this;
/**
* Updates fields in the document referred to by the provided {@link
* DocumentReference}. The update will fail if applied to a document that does
* not exist.
*
* @param documentRef - A reference to the document to be updated.
* @param data - An object containing the fields and values with which to
* update the document. Fields can contain dots to reference nested fields
* within the document.
* @throws Error - If the provided input is not valid Firestore data.
* @returns This `Transaction` instance. Used for chaining method calls.
*/
update<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, data: UpdateData<DbModelType>): this;
/**
* Updates fields in the document referred to by the provided {@link
* DocumentReference}. The update will fail if applied to a document that does
* not exist.
*
* Nested fields can be updated by providing dot-separated field path
* strings or by providing `FieldPath` objects.
*
* @param documentRef - A reference to the document to be updated.
* @param field - The first field to update.
* @param value - The first value.
* @param moreFieldsAndValues - Additional key/value pairs.
* @throws Error - If the provided input is not valid Firestore data.
* @returns This `Transaction` instance. Used for chaining method calls.
*/
update<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, field: string | FieldPath, value: unknown, ...moreFieldsAndValues: unknown[]): this;
/**
* Deletes the document referred to by the provided {@link DocumentReference}.
*
* @param documentRef - A reference to the document to be deleted.
* @returns This `Transaction` instance. Used for chaining method calls.
*/
delete<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>): this;
}
/**
* Internal transaction object responsible for accumulating the mutations to
* perform and the base versions for any documents read.
*/
declare class Transaction_2 {
private datastore;
private readVersions;
private mutations;
private committed;
/**
* A deferred usage error that occurred previously in this transaction that
* will cause the transaction to fail once it actually commits.
*/
private lastTransactionError;
/**
* Set of documents that have been written in the transaction.
*
* When there's more than one write to the same key in a transaction, any
* writes after the first are handled differently.
*/
private writtenDocs;
constructor(datastore: Datastore);
lookup(keys: DocumentKey[]): Promise<Document_2[]>;
set(key: DocumentKey, data: ParsedSetData): void;
update(key: DocumentKey, data: ParsedUpdateData): void;
delete(key: DocumentKey): void;
commit(): Promise<void>;
private recordVersion;
/**
* Returns the version of this document when it was read in this transaction,
* as a precondition, or no precondition if it was not read.
*/
private precondition;
/**
* Returns the precondition for a document if the operation is an update.
*/
private preconditionForUpdate;
private write;
private ensureCommitNotCalled;
}
/**
* @license
* Copyright 2022 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Options to customize transaction behavior.
*/
export declare interface TransactionOptions {
/** Maximum number of attempts to commit, after which transaction fails. Default is 5. */
readonly maxAttempts?: number;
}
/** Used to represent a field transform on a mutation. */
declare class TransformOperation {
private _;
}
declare type UnaryFilterOp = 'OPERATOR_UNSPECIFIED' | 'IS_NAN' | 'IS_NULL' | 'IS_NOT_NAN' | 'IS_NOT_NULL';
/**
* Given a union type `U = T1 | T2 | ...`, returns an intersected type
* `(T1 & T2 & ...)`.
*
* Uses distributive conditional types and inference from conditional types.
* This works because multiple candidates for the same type variable in
* contra-variant positions causes an intersection type to be inferred.
* https://www.typescriptlang.org/docs/handbook/advanced-types.html#type-inference-in-conditional-types
* https://stackoverflow.com/questions/50374908/transform-union-type-to-intersection-type
*/
export declare type UnionToIntersection<U> = (U extends unknown ? (k: U) => void : never) extends (k: infer I) => void ? I : never;
/**
* An untyped Firestore Data Converter interface that is shared between the
* lite, firestore-exp and classic SDK.
*/
declare interface UntypedFirestoreDataConverter<AppModelType, DbModelType extends DocumentData_2 = DocumentData_2> {
toFirestore(modelObject: WithFieldValue<AppModelType>): WithFieldValue<DbModelType>;
toFirestore(modelObject: PartialWithFieldValue<AppModelType>, options: SetOptions_2): PartialWithFieldValue<DbModelType>;
fromFirestore(snapshot: unknown, options?: unknown): AppModelType;
}
/**
* Update data (for use with {@link (updateDoc:1)}) that consists of field paths
* (e.g. 'foo' or 'foo.baz') mapped to values. Fields that contain dots
* reference nested fields within the document. FieldValues can be passed in
* as property values.
*/
export declare type UpdateData<T> = T extends Primitive ? T : T extends {} ? {
[K in keyof T]?: UpdateData<T[K]> | FieldValue;
} & NestedUpdateFields<T> : Partial<T>;
/**
* Updates fields in the document referred to by the specified
* `DocumentReference`. The update will fail if applied to a document that does
* not exist.
*
* The result of this update will only be reflected in document reads that occur
* after the returned promise resolves. If the client is offline, the
* update fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the document to update.
* @param data - An object containing the fields and values with which to
* update the document. Fields can contain dots to reference nested fields
* within the document.
* @throws Error - If the provided input is not valid Firestore data.
* @returns A `Promise` resolved once the data has been successfully written
* to the backend.
*/
export declare function updateDoc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>, data: UpdateData<DbModelType>): Promise<void>;
/**
* Updates fields in the document referred to by the specified
* `DocumentReference` The update will fail if applied to a document that does
* not exist.
*
* Nested fields can be updated by providing dot-separated field path
* strings or by providing `FieldPath` objects.
*
* The result of this update will only be reflected in document reads that occur
* after the returned promise resolves. If the client is offline, the
* update fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @param reference - A reference to the document to update.
* @param field - The first field to update.
* @param value - The first value.
* @param moreFieldsAndValues - Additional key value pairs.
* @throws Error - If the provided input is not valid Firestore data.
* @returns A `Promise` resolved once the data has been successfully written
* to the backend.
*/
export declare function updateDoc<AppModelType, DbModelType extends DocumentData>(reference: DocumentReference<AppModelType, DbModelType>, field: string | FieldPath, value: unknown, ...moreFieldsAndValues: unknown[]): Promise<void>;
/**
* @license
* Copyright 2017 Google LLC
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Simple wrapper around a nullable UID. Mostly exists to make code more
* readable.
*/
declare class User {
readonly uid: string | null;
/** A user with a null UID. */
static readonly UNAUTHENTICATED: User;
static readonly GOOGLE_CREDENTIALS: User;
static readonly FIRST_PARTY: User;
static readonly MOCK_USER: User;
constructor(uid: string | null);
isAuthenticated(): boolean;
/**
* Returns a key representing this user, suitable for inclusion in a
* dictionary.
*/
toKey(): string;
isEqual(otherUser: User): boolean;
}
declare type Value = firestoreV1ApiClientInterfaces.Value;
declare type ValueNullValue = 'NULL_VALUE';
declare class ViewSnapshot {
readonly query: Query_2;
readonly docs: DocumentSet;
readonly oldDocs: DocumentSet;
readonly docChanges: DocumentViewChange[];
readonly mutatedKeys: DocumentKeySet;
readonly fromCache: boolean;
readonly syncStateChanged: boolean;
readonly excludesMetadataChanges: boolean;
readonly hasCachedResults: boolean;
constructor(query: Query_2, docs: DocumentSet, oldDocs: DocumentSet, docChanges: DocumentViewChange[], mutatedKeys: DocumentKeySet, fromCache: boolean, syncStateChanged: boolean, excludesMetadataChanges: boolean, hasCachedResults: boolean);
/** Returns a view snapshot as if all documents in the snapshot were added. */
static fromInitialDocuments(query: Query_2, documents: DocumentSet, mutatedKeys: DocumentKeySet, fromCache: boolean, hasCachedResults: boolean): ViewSnapshot;
get hasPendingWrites(): boolean;
isEqual(other: ViewSnapshot): boolean;
}
/**
* Creates a {@link QueryFieldFilterConstraint} that enforces that documents
* must contain the specified field and that the value should satisfy the
* relation constraint provided.
*
* @param fieldPath - The path to compare
* @param opStr - The operation string (e.g "&lt;", "&lt;=", "==", "&lt;",
* "&lt;=", "!=").
* @param value - The value for comparison
* @returns The created {@link QueryFieldFilterConstraint}.
*/
export declare function where(fieldPath: string | FieldPath, opStr: WhereFilterOp, value: unknown): QueryFieldFilterConstraint;
/**
* Filter conditions in a {@link where} clause are specified using the
* strings '&lt;', '&lt;=', '==', '!=', '&gt;=', '&gt;', 'array-contains', 'in',
* 'array-contains-any', and 'not-in'.
*/
export declare type WhereFilterOp = '<' | '<=' | '==' | '!=' | '>=' | '>' | 'array-contains' | 'in' | 'array-contains-any' | 'not-in';
/**
* Allows FieldValues to be passed in as a property value while maintaining
* type safety.
*/
export declare type WithFieldValue<T> = T | (T extends Primitive ? T : T extends {} ? {
[K in keyof T]: WithFieldValue<T[K]> | FieldValue;
} : never);
/**
* A write batch, used to perform multiple writes as a single atomic unit.
*
* A `WriteBatch` object can be acquired by calling {@link writeBatch}. It
* provides methods for adding writes to the write batch. None of the writes
* will be committed (or visible locally) until {@link WriteBatch.commit} is
* called.
*/
export declare class WriteBatch {
private readonly _firestore;
private readonly _commitHandler;
private readonly _dataReader;
private _mutations;
private _committed;
/** @hideconstructor */
constructor(_firestore: Firestore, _commitHandler: (m: Mutation[]) => Promise<void>);
/**
* Writes to the document referred to by the provided {@link
* DocumentReference}. If the document does not exist yet, it will be created.
*
* @param documentRef - A reference to the document to be set.
* @param data - An object of the fields and values for the document.
* @returns This `WriteBatch` instance. Used for chaining method calls.
*/
set<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, data: WithFieldValue<AppModelType>): WriteBatch;
/**
* Writes to the document referred to by the provided {@link
* DocumentReference}. If the document does not exist yet, it will be created.
* If you provide `merge` or `mergeFields`, the provided data can be merged
* into an existing document.
*
* @param documentRef - A reference to the document to be set.
* @param data - An object of the fields and values for the document.
* @param options - An object to configure the set behavior.
* @throws Error - If the provided input is not a valid Firestore document.
* @returns This `WriteBatch` instance. Used for chaining method calls.
*/
set<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, data: PartialWithFieldValue<AppModelType>, options: SetOptions): WriteBatch;
/**
* Updates fields in the document referred to by the provided {@link
* DocumentReference}. The update will fail if applied to a document that does
* not exist.
*
* @param documentRef - A reference to the document to be updated.
* @param data - An object containing the fields and values with which to
* update the document. Fields can contain dots to reference nested fields
* within the document.
* @throws Error - If the provided input is not valid Firestore data.
* @returns This `WriteBatch` instance. Used for chaining method calls.
*/
update<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, data: UpdateData<DbModelType>): WriteBatch;
/**
* Updates fields in the document referred to by this {@link
* DocumentReference}. The update will fail if applied to a document that does
* not exist.
*
* Nested fields can be update by providing dot-separated field path strings
* or by providing `FieldPath` objects.
*
* @param documentRef - A reference to the document to be updated.
* @param field - The first field to update.
* @param value - The first value.
* @param moreFieldsAndValues - Additional key value pairs.
* @throws Error - If the provided input is not valid Firestore data.
* @returns This `WriteBatch` instance. Used for chaining method calls.
*/
update<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>, field: string | FieldPath, value: unknown, ...moreFieldsAndValues: unknown[]): WriteBatch;
/**
* Deletes the document referred to by the provided {@link DocumentReference}.
*
* @param documentRef - A reference to the document to be deleted.
* @returns This `WriteBatch` instance. Used for chaining method calls.
*/
delete<AppModelType, DbModelType extends DocumentData>(documentRef: DocumentReference<AppModelType, DbModelType>): WriteBatch;
/**
* Commits all of the writes in this write batch as a single atomic unit.
*
* The result of these writes will only be reflected in document reads that
* occur after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @returns A `Promise` resolved once all of the writes in the batch have been
* successfully written to the backend as an atomic unit (note that it won't
* resolve while you're offline).
*/
commit(): Promise<void>;
private _verifyNotCommitted;
}
/**
* Creates a write batch, used for performing multiple writes as a single
* atomic operation. The maximum number of writes allowed in a single WriteBatch
* is 500.
*
* The result of these writes will only be reflected in document reads that
* occur after the returned promise resolves. If the client is offline, the
* write fails. If you would like to see local modifications or buffer writes
* until the client is online, use the full Firestore SDK.
*
* @returns A `WriteBatch` that can be used to atomically execute multiple
* writes.
*/
export declare function writeBatch(firestore: Firestore): WriteBatch;
export { }